Magic-Mirror/gecko-dev
1
0
Fork 0
mirror of https://github.com/mozilla/gecko-dev.git synced 2024-10-19 00:05:36 +00:00
Code Issues Actions Packages Projects Releases Wiki Activity
ffa08d7425
gecko-dev/layout/style/nsStyleStruct.h
Narcis Beleuzu a07765b336 Backed out 20 changesets (bug 1265342) for mochitest-plain-headless failures on layout/style/test/test_first_letter_restrictions.html. CLOSED TREE 
Backed out changeset 6c80ec2d0398 (bug 1265342)
Backed out changeset 62d571916086 (bug 1265342)
Backed out changeset fd247f38f8a7 (bug 1265342)
Backed out changeset 83aee3dafe4b (bug 1265342)
Backed out changeset 9b200122014e (bug 1265342)
Backed out changeset a90aa063b2fd (bug 1265342)
Backed out changeset 0791ff3d9194 (bug 1265342)
Backed out changeset 7109288f10b3 (bug 1265342)
Backed out changeset 048cce2fb99f (bug 1265342)
Backed out changeset c8e3dbc6c729 (bug 1265342)
Backed out changeset 09da0968333a (bug 1265342)
Backed out changeset d16f7ff85677 (bug 1265342)
Backed out changeset 53eb7f14463d (bug 1265342)
Backed out changeset 64fc631ef122 (bug 1265342)
Backed out changeset 332382c708e1 (bug 1265342)
Backed out changeset a8695981eec0 (bug 1265342)
Backed out changeset ce473fa5f1f4 (bug 1265342)
Backed out changeset 5ee470e75a53 (bug 1265342)
Backed out changeset 802aa95a52d9 (bug 1265342)
Backed out changeset 5da0c34c9600 (bug 1265342)
2018-04-24 22:31:15 +03:00

3400 lines
121 KiB
C++
Raw Blame History

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/*
* structs that contain the data provided by ComputedStyle, the
* internal API for computed style data for an element
*/
#ifndef nsStyleStruct_h___
#define nsStyleStruct_h___
#include "mozilla/Attributes.h"
#include "mozilla/Maybe.h"
#include "mozilla/SheetType.h"
#include "mozilla/StaticPtr.h"
#include "mozilla/StyleComplexColor.h"
#include "mozilla/UniquePtr.h"
#include "nsColor.h"
#include "nsCoord.h"
#include "nsMargin.h"
#include "nsFont.h"
#include "nsStyleAutoArray.h"
#include "nsStyleCoord.h"
#include "nsStyleConsts.h"
#include "nsChangeHint.h"
#include "nsTimingFunction.h"
#include "nsCOMPtr.h"
#include "nsCOMArray.h"
#include "nsTArray.h"
#include "nsCSSValue.h"
#include "imgRequestProxy.h"
#include "Orientation.h"
#include "CounterStyleManager.h"
#include <cstddef> // offsetof()
#include <utility>
#include "X11UndefineNone.h"
class nsIFrame;
class nsIURI;
class nsTextFrame;
class imgIContainer;
class nsPresContext;
struct nsStyleVisibility;
namespace mozilla {
class ComputedStyle;
namespace dom {
class ImageTracker;
} // namespace dom
} // namespace mozilla
namespace mozilla {
struct Position {
using Coord = nsStyleCoord::CalcValue;
Coord mXPosition, mYPosition;
// Initialize nothing
Position() {}
// Sets both mXPosition and mYPosition to the given percent value for the
// initial property-value (e.g. 0.0f for "0% 0%", or 0.5f for "50% 50%")
void SetInitialPercentValues(float aPercentVal);
// Sets both mXPosition and mYPosition to 0 (app units) for the
// initial property-value as a length with no percentage component.
void SetInitialZeroValues();
// True if the effective background image position described by this depends
// on the size of the corresponding frame.
bool DependsOnPositioningAreaSize() const {
return mXPosition.mPercent != 0.0f || mYPosition.mPercent != 0.0f;
}
bool operator==(const Position& aOther) const {
return mXPosition == aOther.mXPosition &&
mYPosition == aOther.mYPosition;
}
bool operator!=(const Position& aOther) const {
return !(*this == aOther);
}
};
} // namespace mozilla
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleFont
{
nsStyleFont(const nsFont& aFont, const nsPresContext* aContext);
nsStyleFont(const nsStyleFont& aStyleFont);
explicit nsStyleFont(const nsPresContext* aContext);
~nsStyleFont() {
MOZ_COUNT_DTOR(nsStyleFont);
}
void FinishStyle(nsPresContext*, const nsStyleFont*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleFont& aNewData) const;
/**
* Return aSize multiplied by the current text zoom factor (in aPresContext).
* aSize is allowed to be negative, but the caller is expected to deal with
* negative results. The result is clamped to nscoord_MIN .. nscoord_MAX.
*/
static nscoord ZoomText(const nsPresContext* aPresContext, nscoord aSize);
/**
* Return aSize divided by the current text zoom factor (in aPresContext).
* aSize is allowed to be negative, but the caller is expected to deal with
* negative results. The result is clamped to nscoord_MIN .. nscoord_MAX.
*/
static nscoord UnZoomText(nsPresContext* aPresContext, nscoord aSize);
static already_AddRefed<nsAtom> GetLanguage(const nsPresContext* aPresContext);
void EnableZoom(nsPresContext* aContext, bool aEnable);
nsFont mFont; // [inherited]
nscoord mSize; // [inherited] Our "computed size". Can be different
// from mFont.size which is our "actual size" and is
// enforced to be >= the user's preferred min-size.
// mFont.size should be used for display purposes
// while mSize is the value to return in
// getComputedStyle() for example.
// In stylo these three track whether the size is keyword-derived
// and if so if it has been modified by a factor/offset
float mFontSizeFactor;
nscoord mFontSizeOffset;
uint8_t mFontSizeKeyword; // NS_STYLE_FONT_SIZE_*, is NS_STYLE_FONT_SIZE_NO_KEYWORD
// when not keyword-derived
uint8_t mGenericID; // [inherited] generic CSS font family, if any;
// value is a kGenericFont_* constant, see nsFont.h.
// MathML scriptlevel support
int8_t mScriptLevel; // [inherited]
// MathML mathvariant support
uint8_t mMathVariant; // [inherited]
// MathML displaystyle support
uint8_t mMathDisplay; // [inherited]
// allow different min font-size for certain cases
uint8_t mMinFontSizeRatio; // [inherited] percent * 100
// was mLanguage set based on a lang attribute in the document?
bool mExplicitLanguage; // [inherited]
// should calls to ZoomText() and UnZoomText() be made to the font
// size on this nsStyleFont?
bool mAllowZoom; // [inherited]
// The value mSize would have had if scriptminsize had never been applied
nscoord mScriptUnconstrainedSize;
nscoord mScriptMinSize; // [inherited] length
float mScriptSizeMultiplier; // [inherited]
RefPtr<nsAtom> mLanguage; // [inherited]
};
struct nsStyleGradientStop
{
nsStyleCoord mLocation; // percent, coord, calc, none
nscolor mColor;
bool mIsInterpolationHint;
// Use ==/!= on nsStyleGradient instead of on the gradient stop.
bool operator==(const nsStyleGradientStop&) const = delete;
bool operator!=(const nsStyleGradientStop&) const = delete;
};
class nsStyleGradient final
{
public:
nsStyleGradient();
uint8_t mShape; // NS_STYLE_GRADIENT_SHAPE_*
uint8_t mSize; // NS_STYLE_GRADIENT_SIZE_*;
// not used (must be FARTHEST_CORNER) for linear shape
bool mRepeating;
bool mLegacySyntax; // If true, serialization should use a vendor prefix.
// XXXdholbert This will hopefully be going away soon, if bug 1337655 sticks:
bool mMozLegacySyntax; // (Only makes sense when mLegacySyntax is true.)
// If true, serialization should use -moz prefix.
// Else, serialization should use -webkit prefix.
nsStyleCoord mBgPosX; // percent, coord, calc, none
nsStyleCoord mBgPosY; // percent, coord, calc, none
nsStyleCoord mAngle; // none, angle
nsStyleCoord mRadiusX; // percent, coord, calc, none
nsStyleCoord mRadiusY; // percent, coord, calc, none
// stops are in the order specified in the stylesheet
nsTArray<nsStyleGradientStop> mStops;
bool operator==(const nsStyleGradient& aOther) const;
bool operator!=(const nsStyleGradient& aOther) const {
return !(*this == aOther);
}
bool IsOpaque();
bool HasCalc();
uint32_t Hash(PLDHashNumber aHash);
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(nsStyleGradient)
private:
// Private destructor, to discourage deletion outside of Release():
~nsStyleGradient() {}
nsStyleGradient(const nsStyleGradient& aOther) = delete;
nsStyleGradient& operator=(const nsStyleGradient& aOther) = delete;
};
/**
* A wrapper for an imgRequestProxy that supports off-main-thread creation
* and equality comparison.
*
* An nsStyleImageRequest can be created in two ways:
*
* 1. Using the constructor that takes an imgRequestProxy. This must
* be called from the main thread. The nsStyleImageRequest is
* immediately considered "resolved", and the get() method that
* returns the imgRequestProxy can be called.
*
* 2. Using the constructor that takes the URL, base URI, referrer
* and principal that can be used to inititiate an image load and
* produce an imgRequestProxy later. This can be called from
* any thread. The nsStyleImageRequest is not considered "resolved"
* at this point, and the Resolve() method must be called later
* to initiate the image load and make calls to get() valid.
*
* Calls to TrackImage(), UntrackImage(), LockImage(), UnlockImage() and
* RequestDiscard() are made to the imgRequestProxy and ImageTracker as
* appropriate, according to the mode flags passed in to the constructor.
*
* The main thread constructor takes a pointer to the css::ImageValue that
* is the specified url() value, while the off-main-thread constructor
* creates a new css::ImageValue to represent the url() information passed
* to the constructor. This ImageValue is held on to for the comparisons done
* in DefinitelyEquals(), so that we don't need to call into the non-OMT-safe
* Equals() on the nsIURI objects returned from imgRequestProxy::GetURI().
*/
class nsStyleImageRequest
{
public:
typedef mozilla::css::URLValueData URLValueData;
// Flags describing whether the imgRequestProxy must be tracked in the
// ImageTracker, whether LockImage/UnlockImage calls will be made
// when obtaining and releasing the imgRequestProxy, and whether
// RequestDiscard will be called on release.
enum class Mode : uint8_t {
// The imgRequestProxy will be added to the ImageTracker when resolved
// Without this flag, the nsStyleImageRequest itself will call LockImage/
// UnlockImage on the imgRequestProxy, rather than leaving locking to the
// ImageTracker to manage.
//
// This flag is currently used by all nsStyleImageRequests except
// those for list-style-image and cursor.
Track = 0x1,
// The imgRequestProxy will have its RequestDiscard method called when
// the nsStyleImageRequest is going away.
//
// This is currently used only for cursor images.
Discard = 0x2,
};
// Must be called from the main thread.
//
// aImageTracker must be non-null iff aModeFlags contains Track.
nsStyleImageRequest(Mode aModeFlags,
imgRequestProxy* aRequestProxy,
mozilla::css::ImageValue* aImageValue,
mozilla::dom::ImageTracker* aImageTracker);
// Can be called from any thread, but Resolve() must be called later
// on the main thread before get() can be used.
nsStyleImageRequest(
Mode aModeFlags,
mozilla::css::ImageValue* aImageValue);
bool Resolve(nsPresContext*, const nsStyleImageRequest* aOldImageRequest);
bool IsResolved() const { return mResolved; }
imgRequestProxy* get() {
MOZ_ASSERT(IsResolved(), "Resolve() must be called first");
MOZ_ASSERT(NS_IsMainThread());
return mRequestProxy.get();
}
const imgRequestProxy* get() const {
return const_cast<nsStyleImageRequest*>(this)->get();
}
// Returns whether the ImageValue objects in the two nsStyleImageRequests
// return true from URLValueData::DefinitelyEqualURIs.
bool DefinitelyEquals(const nsStyleImageRequest& aOther) const;
mozilla::css::ImageValue* GetImageValue() const { return mImageValue; }
already_AddRefed<nsIURI> GetImageURI() const;
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(nsStyleImageRequest);
private:
~nsStyleImageRequest();
nsStyleImageRequest& operator=(const nsStyleImageRequest& aOther) = delete;
void MaybeTrackAndLock();
RefPtr<imgRequestProxy> mRequestProxy;
RefPtr<mozilla::css::ImageValue> mImageValue;
RefPtr<mozilla::dom::ImageTracker> mImageTracker;
// Cache DocGroup for dispatching events in the destructor.
RefPtr<mozilla::dom::DocGroup> mDocGroup;
Mode mModeFlags;
bool mResolved;
};
MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS(nsStyleImageRequest::Mode)
enum nsStyleImageType {
eStyleImageType_Null,
eStyleImageType_Image,
eStyleImageType_Gradient,
eStyleImageType_Element,
eStyleImageType_URL
};
struct CachedBorderImageData
{
~CachedBorderImageData() {
PurgeCachedImages();
}
// Caller are expected to ensure that the value of aSVGViewportSize is
// different from the cached one since the method won't do the check.
void SetCachedSVGViewportSize(const mozilla::Maybe<nsSize>& aSVGViewportSize);
const mozilla::Maybe<nsSize>& GetCachedSVGViewportSize();
void PurgeCachedImages();
void SetSubImage(uint8_t aIndex, imgIContainer* aSubImage);
imgIContainer* GetSubImage(uint8_t aIndex);
private:
// If this is a SVG border-image, we save the size of the SVG viewport that
// we used when rasterizing any cached border-image subimages. (The viewport
// size matters for percent-valued sizes & positions in inner SVG doc).
mozilla::Maybe<nsSize> mCachedSVGViewportSize;
nsCOMArray<imgIContainer> mSubImages;
};
/**
* Represents a paintable image of one of the following types.
* (1) A real image loaded from an external source.
* (2) A CSS linear or radial gradient.
* (3) An element within a document, or an <img>, <video>, or <canvas> element
* not in a document.
* (*) Optionally a crop rect can be set to paint a partial (rectangular)
* region of an image. (Currently, this feature is only supported with an
* image of type (1)).
*/
struct nsStyleImage
{
typedef mozilla::css::URLValue URLValue;
typedef mozilla::css::URLValueData URLValueData;
nsStyleImage();
~nsStyleImage();
nsStyleImage(const nsStyleImage& aOther);
nsStyleImage& operator=(const nsStyleImage& aOther);
void SetNull();
void SetImageRequest(already_AddRefed<nsStyleImageRequest> aImage);
void SetGradientData(nsStyleGradient* aGradient);
void SetElementId(already_AddRefed<nsAtom> aElementId);
void SetCropRect(mozilla::UniquePtr<nsStyleSides> aCropRect);
void SetURLValue(already_AddRefed<URLValue> aData);
void ResolveImage(nsPresContext* aContext, const nsStyleImage* aOldImage) {
MOZ_ASSERT(mType != eStyleImageType_Image || mImage);
if (mType == eStyleImageType_Image && !mImage->IsResolved()) {
const nsStyleImageRequest* oldRequest =
(aOldImage && aOldImage->GetType() == eStyleImageType_Image)
? aOldImage->GetImageRequest() : nullptr;
mImage->Resolve(aContext, oldRequest);
}
}
nsStyleImageType GetType() const {
return mType;
}
nsStyleImageRequest* GetImageRequest() const {
MOZ_ASSERT(mType == eStyleImageType_Image, "Data is not an image!");
MOZ_ASSERT(mImage);
return mImage;
}
imgRequestProxy* GetImageData() const {
return GetImageRequest()->get();
}
nsStyleGradient* GetGradientData() const {
NS_ASSERTION(mType == eStyleImageType_Gradient, "Data is not a gradient!");
return mGradient;
}
bool IsResolved() const {
return mType != eStyleImageType_Image || GetImageRequest()->IsResolved();
}
const nsAtom* GetElementId() const {
NS_ASSERTION(mType == eStyleImageType_Element, "Data is not an element!");
return mElementId;
}
const mozilla::UniquePtr<nsStyleSides>& GetCropRect() const {
NS_ASSERTION(mType == eStyleImageType_Image,
"Only image data can have a crop rect");
return mCropRect;
}
already_AddRefed<nsIURI> GetImageURI() const;
URLValueData* GetURLValue() const;
/**
* Compute the actual crop rect in pixels, using the source image bounds.
* The computation involves converting percentage unit to pixel unit and
* clamping each side value to fit in the source image bounds.
* @param aActualCropRect the computed actual crop rect.
* @param aIsEntireImage true iff |aActualCropRect| is identical to the
* source image bounds.
* @return true iff |aActualCropRect| holds a meaningful value.
*/
bool ComputeActualCropRect(nsIntRect& aActualCropRect,
bool* aIsEntireImage = nullptr) const;
/**
* Starts the decoding of a image. Returns true if the current frame of the
* image is complete. The return value is intended to be used instead of
* IsComplete because IsComplete may not be up to date if notifications
* from decoding are pending because they are being sent async.
*/
bool StartDecoding() const;
/**
* @return true if the item is definitely opaque --- i.e., paints every
* pixel within its bounds opaquely, and the bounds contains at least a pixel.
*/
bool IsOpaque() const;
/**
* @return true if this image is fully loaded, and its size is calculated;
* always returns true if |mType| is |eStyleImageType_Gradient| or
* |eStyleImageType_Element|.
*/
bool IsComplete() const;
/**
* @return true if this image is loaded without error;
* always returns true if |mType| is |eStyleImageType_Gradient| or
* |eStyleImageType_Element|.
*/
bool IsLoaded() const;
/**
* @return true if it is 100% confident that this image contains no pixel
* to draw.
*/
bool IsEmpty() const {
// There are some other cases when the image will be empty, for example
// when the crop rect is empty. However, checking the emptiness of crop
// rect is non-trivial since each side value can be specified with
// percentage unit, which can not be evaluated until the source image size
// is available. Therefore, we currently postpone the evaluation of crop
// rect until the actual rendering time --- alternatively until GetOpaqueRegion()
// is called.
return mType == eStyleImageType_Null;
}
bool operator==(const nsStyleImage& aOther) const;
bool operator!=(const nsStyleImage& aOther) const {
return !(*this == aOther);
}
bool ImageDataEquals(const nsStyleImage& aOther) const
{
return GetType() == eStyleImageType_Image &&
aOther.GetType() == eStyleImageType_Image &&
GetImageData() == aOther.GetImageData();
}
// These methods are used for the caller to caches the sub images created
// during a border-image paint operation
inline void SetSubImage(uint8_t aIndex, imgIContainer* aSubImage) const;
inline imgIContainer* GetSubImage(uint8_t aIndex) const;
void PurgeCacheForViewportChange(
const mozilla::Maybe<nsSize>& aSVGViewportSize,
const bool aHasIntrinsicRatio) const;
private:
void DoCopy(const nsStyleImage& aOther);
void EnsureCachedBIData() const;
// This variable keeps some cache data for border image and is lazily
// allocated since it is only used in border image case.
mozilla::UniquePtr<CachedBorderImageData> mCachedBIData;
nsStyleImageType mType;
union {
nsStyleImageRequest* mImage;
nsStyleGradient* mGradient;
URLValue* mURLValue; // See the comment in SetStyleImage's 'case
// eCSSUnit_URL' section to know why we need to
// store URLValues separately from mImage.
nsAtom* mElementId;
};
// This is _currently_ used only in conjunction with eStyleImageType_Image.
mozilla::UniquePtr<nsStyleSides> mCropRect;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleColor
{
explicit nsStyleColor(const nsPresContext* aContext);
nsStyleColor(const nsStyleColor& aOther);
~nsStyleColor() {
MOZ_COUNT_DTOR(nsStyleColor);
}
void FinishStyle(nsPresContext*, const nsStyleColor*) {}
const static bool kHasFinishStyle = false;
nscolor CalcComplexColor(const mozilla::StyleComplexColor& aColor) const {
return mozilla::LinearBlendColors(aColor.mColor, mColor,
aColor.mForegroundRatio);
}
nsChangeHint CalcDifference(const nsStyleColor& aNewData) const;
// Don't add ANY members to this struct! We can achieve caching in the rule
// tree (rather than the style tree) by letting color stay by itself! -dwh
nscolor mColor; // [inherited]
};
struct nsStyleImageLayers {
// Indices into kBackgroundLayerTable and kMaskLayerTable
enum {
shorthand = 0,
color,
image,
repeat,
positionX,
positionY,
clip,
origin,
size,
attachment,
maskMode,
composite
};
enum class LayerType : uint8_t {
Background = 0,
Mask
};
explicit nsStyleImageLayers(LayerType aType);
nsStyleImageLayers(const nsStyleImageLayers &aSource);
~nsStyleImageLayers() {
MOZ_COUNT_DTOR(nsStyleImageLayers);
}
static bool IsInitialPositionForLayerType(mozilla::Position aPosition, LayerType aType);
struct Size {
struct Dimension : public nsStyleCoord::CalcValue {
nscoord ResolveLengthPercentage(nscoord aAvailable) const {
double d = double(mPercent) * double(aAvailable) + double(mLength);
if (d < 0.0) {
return 0;
}
return NSToCoordRoundWithClamp(float(d));
}
};
Dimension mWidth, mHeight;
bool IsInitialValue() const {
return mWidthType == eAuto && mHeightType == eAuto;
}
nscoord ResolveWidthLengthPercentage(const nsSize& aBgPositioningArea) const {
MOZ_ASSERT(mWidthType == eLengthPercentage,
"resolving non-length/percent dimension!");
return mWidth.ResolveLengthPercentage(aBgPositioningArea.width);
}
nscoord ResolveHeightLengthPercentage(const nsSize& aBgPositioningArea) const {
MOZ_ASSERT(mHeightType == eLengthPercentage,
"resolving non-length/percent dimension!");
return mHeight.ResolveLengthPercentage(aBgPositioningArea.height);
}
// Except for eLengthPercentage, Dimension types which might change
// how a layer is painted when the corresponding frame's dimensions
// change *must* precede all dimension types which are agnostic to
// frame size; see DependsOnDependsOnPositioningAreaSizeSize.
enum DimensionType {
// If one of mWidth and mHeight is eContain or eCover, then both are.
// NOTE: eContain and eCover *must* be equal to NS_STYLE_BG_SIZE_CONTAIN
// and NS_STYLE_BG_SIZE_COVER (in kBackgroundSizeKTable).
eContain, eCover,
eAuto,
eLengthPercentage,
eDimensionType_COUNT
};
uint8_t mWidthType, mHeightType;
// True if the effective image size described by this depends on the size of
// the corresponding frame, when aImage (which must not have null type) is
// the background image.
bool DependsOnPositioningAreaSize(const nsStyleImage& aImage) const;
// Initialize nothing
Size() {}
// Initialize to initial values
void SetInitialValues();
bool operator==(const Size& aOther) const;
bool operator!=(const Size& aOther) const {
return !(*this == aOther);
}
};
struct Repeat {
mozilla::StyleImageLayerRepeat mXRepeat, mYRepeat;
// Initialize nothing
Repeat() {}
bool IsInitialValue() const {
return mXRepeat == mozilla::StyleImageLayerRepeat::Repeat &&
mYRepeat == mozilla::StyleImageLayerRepeat::Repeat;
}
bool DependsOnPositioningAreaSize() const {
return mXRepeat == mozilla::StyleImageLayerRepeat::Space ||
mYRepeat == mozilla::StyleImageLayerRepeat::Space;
}
// Initialize to initial values
void SetInitialValues() {
mXRepeat = mozilla::StyleImageLayerRepeat::Repeat;
mYRepeat = mozilla::StyleImageLayerRepeat::Repeat;
}
bool operator==(const Repeat& aOther) const {
return mXRepeat == aOther.mXRepeat &&
mYRepeat == aOther.mYRepeat;
}
bool operator!=(const Repeat& aOther) const {
return !(*this == aOther);
}
};
struct Layer {
typedef mozilla::StyleGeometryBox StyleGeometryBox;
nsStyleImage mImage; // [reset]
mozilla::Position mPosition; // [reset]
Size mSize; // [reset]
StyleGeometryBox mClip; // [reset] See nsStyleConsts.h
MOZ_INIT_OUTSIDE_CTOR
StyleGeometryBox mOrigin; // [reset] See nsStyleConsts.h
uint8_t mAttachment; // [reset] See nsStyleConsts.h
// background-only property
// This property is used for background layer
// only. For a mask layer, it should always
// be the initial value, which is
// NS_STYLE_IMAGELAYER_ATTACHMENT_SCROLL.
uint8_t mBlendMode; // [reset] See nsStyleConsts.h
// background-only property
// This property is used for background layer
// only. For a mask layer, it should always
// be the initial value, which is
// NS_STYLE_BLEND_NORMAL.
uint8_t mComposite; // [reset] See nsStyleConsts.h
// mask-only property
// This property is used for mask layer only.
// For a background layer, it should always
// be the initial value, which is
// NS_STYLE_COMPOSITE_MODE_ADD.
uint8_t mMaskMode; // [reset] See nsStyleConsts.h
// mask-only property
// This property is used for mask layer only.
// For a background layer, it should always
// be the initial value, which is
// NS_STYLE_MASK_MODE_MATCH_SOURCE.
Repeat mRepeat; // [reset] See nsStyleConsts.h
// This constructor does not initialize mRepeat or mOrigin and Initialize()
// must be called to do that.
Layer();
~Layer();
// Initialize mRepeat and mOrigin by specified layer type
void Initialize(LayerType aType);
void ResolveImage(nsPresContext* aContext, const Layer* aOldLayer) {
mImage.ResolveImage(aContext, aOldLayer ? &aOldLayer->mImage : nullptr);
}
// True if the rendering of this layer might change when the size
// of the background positioning area changes. This is true for any
// non-solid-color background whose position or size depends on
// the size of the positioning area. It's also true for SVG images
// whose root <svg> node has a viewBox.
bool RenderingMightDependOnPositioningAreaSizeChange() const;
// Compute the change hint required by changes in just this layer.
nsChangeHint CalcDifference(const Layer& aNewLayer) const;
// An equality operator that compares the images using URL-equality
// rather than pointer-equality.
bool operator==(const Layer& aOther) const;
bool operator!=(const Layer& aOther) const {
return !(*this == aOther);
}
};
// The (positive) number of computed values of each property, since
// the lengths of the lists are independent.
uint32_t mAttachmentCount,
mClipCount,
mOriginCount,
mRepeatCount,
mPositionXCount,
mPositionYCount,
mImageCount,
mSizeCount,
mMaskModeCount,
mBlendModeCount,
mCompositeCount;
// Layers are stored in an array, matching the top-to-bottom order in
// which they are specified in CSS. The number of layers to be used
// should come from the background-image property. We create
// additional |Layer| objects for *any* property, not just
// background-image. This means that the bottommost layer that
// callers in layout care about (which is also the one whose
// background-clip applies to the background-color) may not be last
// layer. In layers below the bottom layer, properties will be
// uninitialized unless their count, above, indicates that they are
// present.
nsStyleAutoArray<Layer> mLayers;
const Layer& BottomLayer() const { return mLayers[mImageCount - 1]; }
void ResolveImages(nsPresContext* aContext, const nsStyleImageLayers* aOldLayers) {
for (uint32_t i = 0; i < mImageCount; ++i) {
const Layer* oldLayer =
(aOldLayers && aOldLayers->mLayers.Length() > i)
? &aOldLayers->mLayers[i]
: nullptr;
mLayers[i].ResolveImage(aContext, oldLayer);
}
}
// Fill unspecified layers by cycling through their values
// till they all are of length aMaxItemCount
void FillAllLayers(uint32_t aMaxItemCount);
nsChangeHint CalcDifference(const nsStyleImageLayers& aNewLayers,
nsStyleImageLayers::LayerType aType) const;
nsStyleImageLayers& operator=(const nsStyleImageLayers& aOther);
nsStyleImageLayers& operator=(nsStyleImageLayers&& aOther);
bool operator==(const nsStyleImageLayers& aOther) const;
static const nsCSSPropertyID kBackgroundLayerTable[];
static const nsCSSPropertyID kMaskLayerTable[];
#define NS_FOR_VISIBLE_IMAGE_LAYERS_BACK_TO_FRONT(var_, layers_) \
for (uint32_t var_ = (layers_).mImageCount; var_-- != 0; )
#define NS_FOR_VISIBLE_IMAGE_LAYERS_BACK_TO_FRONT_WITH_RANGE(var_, layers_, start_, count_) \
NS_ASSERTION((int32_t)(start_) >= 0 && (uint32_t)(start_) < (layers_).mImageCount, "Invalid layer start!"); \
NS_ASSERTION((count_) > 0 && (count_) <= (start_) + 1, "Invalid layer range!"); \
for (uint32_t var_ = (start_) + 1; var_-- != (uint32_t)((start_) + 1 - (count_)); )
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleBackground {
explicit nsStyleBackground(const nsPresContext* aContext);
nsStyleBackground(const nsStyleBackground& aOther);
~nsStyleBackground();
// Resolves and tracks the images in mImage. Only called with a Servo-backed
// style system, where those images must be resolved later than the OMT
// nsStyleBackground constructor call.
void FinishStyle(nsPresContext*, const nsStyleBackground*);
const static bool kHasFinishStyle = true;
nsChangeHint CalcDifference(const nsStyleBackground& aNewData) const;
// Return the background color as nscolor.
nscolor BackgroundColor(const nsIFrame* aFrame) const;
nscolor BackgroundColor(mozilla::ComputedStyle* aStyle) const;
// True if this background is completely transparent.
bool IsTransparent(const nsIFrame* aFrame) const;
bool IsTransparent(mozilla::ComputedStyle* aStyle) const;
// We have to take slower codepaths for fixed background attachment,
// but we don't want to do that when there's no image.
// Not inline because it uses an nsCOMPtr<imgIRequest>
// FIXME: Should be in nsStyleStructInlines.h.
bool HasFixedBackground(nsIFrame* aFrame) const;
// Checks to see if this has a non-empty image with "local" attachment.
// This is defined in nsStyleStructInlines.h.
inline bool HasLocalBackground() const;
const nsStyleImageLayers::Layer& BottomLayer() const { return mImage.BottomLayer(); }
nsStyleImageLayers mImage;
mozilla::StyleComplexColor mBackgroundColor; // [reset]
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleMargin
{
explicit nsStyleMargin(const nsPresContext* aContext);
nsStyleMargin(const nsStyleMargin& aMargin);
~nsStyleMargin() {
MOZ_COUNT_DTOR(nsStyleMargin);
}
void FinishStyle(nsPresContext*, const nsStyleMargin*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleMargin& aNewData) const;
bool GetMargin(nsMargin& aMargin) const
{
if (!mMargin.ConvertsToLength()) {
return false;
}
NS_FOR_CSS_SIDES(side) {
aMargin.Side(side) = mMargin.ToLength(side);
}
return true;
}
// Return true if either the start or end side in the axis is 'auto'.
// (defined in WritingModes.h since we need the full WritingMode type)
inline bool HasBlockAxisAuto(mozilla::WritingMode aWM) const;
inline bool HasInlineAxisAuto(mozilla::WritingMode aWM) const;
nsStyleSides mMargin; // [reset] coord, percent, calc, auto
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStylePadding
{
explicit nsStylePadding(const nsPresContext* aContext);
nsStylePadding(const nsStylePadding& aPadding);
~nsStylePadding() {
MOZ_COUNT_DTOR(nsStylePadding);
}
void FinishStyle(nsPresContext*, const nsStylePadding*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStylePadding& aNewData) const;
nsStyleSides mPadding; // [reset] coord, percent, calc
bool IsWidthDependent() const {
return !mPadding.ConvertsToLength();
}
bool GetPadding(nsMargin& aPadding) const
{
if (!mPadding.ConvertsToLength()) {
return false;
}
NS_FOR_CSS_SIDES(side) {
// Clamp negative calc() to 0.
aPadding.Side(side) = std::max(mPadding.ToLength(side), 0);
}
return true;
}
};
struct nsCSSShadowItem
{
nscoord mXOffset;
nscoord mYOffset;
nscoord mRadius;
nscoord mSpread;
nscolor mColor;
bool mHasColor; // Whether mColor should be used
bool mInset;
nsCSSShadowItem() : mHasColor(false) {
MOZ_COUNT_CTOR(nsCSSShadowItem);
}
~nsCSSShadowItem() {
MOZ_COUNT_DTOR(nsCSSShadowItem);
}
bool operator==(const nsCSSShadowItem& aOther) const {
return (mXOffset == aOther.mXOffset &&
mYOffset == aOther.mYOffset &&
mRadius == aOther.mRadius &&
mHasColor == aOther.mHasColor &&
mSpread == aOther.mSpread &&
mInset == aOther.mInset &&
(!mHasColor || mColor == aOther.mColor));
}
bool operator!=(const nsCSSShadowItem& aOther) const {
return !(*this == aOther);
}
};
class nsCSSShadowArray final
{
public:
void* operator new(size_t aBaseSize, uint32_t aArrayLen) {
// We can allocate both this nsCSSShadowArray and the
// actual array in one allocation. The amount of memory to
// allocate is equal to the class's size + the number of bytes for all
// but the first array item (because aBaseSize includes one
// item, see the private declarations)
return ::operator new(aBaseSize +
(aArrayLen - 1) * sizeof(nsCSSShadowItem));
}
void operator delete(void* aPtr) { ::operator delete(aPtr); }
explicit nsCSSShadowArray(uint32_t aArrayLen) :
mLength(aArrayLen)
{
for (uint32_t i = 1; i < mLength; ++i) {
// Make sure we call the constructors of each nsCSSShadowItem
// (the first one is called for us because we declared it under private)
new (&mArray[i]) nsCSSShadowItem();
}
}
private:
// Private destructor, to discourage deletion outside of Release():
~nsCSSShadowArray() {
for (uint32_t i = 1; i < mLength; ++i) {
mArray[i].~nsCSSShadowItem();
}
}
public:
uint32_t Length() const { return mLength; }
nsCSSShadowItem* ShadowAt(uint32_t i) {
MOZ_ASSERT(i < mLength, "Accessing too high an index in the text shadow array!");
return &mArray[i];
}
const nsCSSShadowItem* ShadowAt(uint32_t i) const {
MOZ_ASSERT(i < mLength, "Accessing too high an index in the text shadow array!");
return &mArray[i];
}
bool HasShadowWithInset(bool aInset) {
for (uint32_t i = 0; i < mLength; ++i) {
if (mArray[i].mInset == aInset) {
return true;
}
}
return false;
}
bool operator==(const nsCSSShadowArray& aOther) const {
if (mLength != aOther.Length()) {
return false;
}
for (uint32_t i = 0; i < mLength; ++i) {
if (ShadowAt(i) != aOther.ShadowAt(i)) {
return false;
}
}
return true;
}
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(nsCSSShadowArray)
private:
uint32_t mLength;
nsCSSShadowItem mArray[1]; // This MUST be the last item
};
// Border widths are rounded to the nearest-below integer number of pixels,
// but values between zero and one device pixels are always rounded up to
// one device pixel.
#define NS_ROUND_BORDER_TO_PIXELS(l,tpp) \
((l) == 0) ? 0 : std::max((tpp), (l) / (tpp) * (tpp))
// Outline offset is rounded to the nearest integer number of pixels, but values
// between zero and one device pixels are always rounded up to one device pixel.
// Note that the offset can be negative.
#define NS_ROUND_OFFSET_TO_PIXELS(l,tpp) \
(((l) == 0) ? 0 : \
((l) > 0) ? std::max( (tpp), ((l) + ((tpp) / 2)) / (tpp) * (tpp)) : \
std::min(-(tpp), ((l) - ((tpp) / 2)) / (tpp) * (tpp)))
// Returns if the given border style type is visible or not
static bool IsVisibleBorderStyle(uint8_t aStyle)
{
return (aStyle != NS_STYLE_BORDER_STYLE_NONE &&
aStyle != NS_STYLE_BORDER_STYLE_HIDDEN);
}
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleBorder
{
explicit nsStyleBorder(const nsPresContext* aContext);
nsStyleBorder(const nsStyleBorder& aBorder);
~nsStyleBorder();
// Resolves and tracks mBorderImageSource. Only called with a Servo-backed
// style system, where those images must be resolved later than the OMT
// nsStyleBorder constructor call.
void FinishStyle(nsPresContext*, const nsStyleBorder*);
const static bool kHasFinishStyle = true;
nsChangeHint CalcDifference(const nsStyleBorder& aNewData) const;
// Return whether aStyle is a visible style. Invisible styles cause
// the relevant computed border width to be 0.
// Note that this does *not* consider the effects of 'border-image':
// if border-style is none, but there is a loaded border image,
// HasVisibleStyle will be false even though there *is* a border.
bool HasVisibleStyle(mozilla::Side aSide) const
{
return IsVisibleBorderStyle(mBorderStyle[aSide]);
}
// aBorderWidth is in twips
void SetBorderWidth(mozilla::Side aSide, nscoord aBorderWidth)
{
nscoord roundedWidth =
NS_ROUND_BORDER_TO_PIXELS(aBorderWidth, mTwipsPerPixel);
mBorder.Side(aSide) = roundedWidth;
if (HasVisibleStyle(aSide)) {
mComputedBorder.Side(aSide) = roundedWidth;
}
}
// Get the computed border (plus rounding). This does consider the
// effects of 'border-style: none', but does not consider
// 'border-image'.
const nsMargin& GetComputedBorder() const
{
return mComputedBorder;
}
bool HasBorder() const
{
return mComputedBorder != nsMargin(0,0,0,0) || !mBorderImageSource.IsEmpty();
}
// Get the actual border width for a particular side, in appunits. Note that
// this is zero if and only if there is no border to be painted for this
// side. That is, this value takes into account the border style and the
// value is rounded to the nearest device pixel by NS_ROUND_BORDER_TO_PIXELS.
nscoord GetComputedBorderWidth(mozilla::Side aSide) const
{
return GetComputedBorder().Side(aSide);
}
uint8_t GetBorderStyle(mozilla::Side aSide) const
{
NS_ASSERTION(aSide <= mozilla::eSideLeft, "bad side");
return mBorderStyle[aSide];
}
void SetBorderStyle(mozilla::Side aSide, uint8_t aStyle)
{
NS_ASSERTION(aSide <= mozilla::eSideLeft, "bad side");
mBorderStyle[aSide] = aStyle;
mComputedBorder.Side(aSide) =
(HasVisibleStyle(aSide) ? mBorder.Side(aSide) : 0);
}
inline bool IsBorderImageLoaded() const
{
return mBorderImageSource.IsLoaded();
}
nsMargin GetImageOutset() const;
imgIRequest* GetBorderImageRequest() const
{
if (mBorderImageSource.GetType() == eStyleImageType_Image) {
return mBorderImageSource.GetImageData();
}
return nullptr;
}
public:
nsStyleCorners mBorderRadius; // [reset] coord, percent
nsStyleImage mBorderImageSource; // [reset]
nsStyleSides mBorderImageSlice; // [reset] factor, percent
nsStyleSides mBorderImageWidth; // [reset] length, factor, percent, auto
nsStyleSides mBorderImageOutset; // [reset] length, factor
uint8_t mBorderImageFill; // [reset]
mozilla::StyleBorderImageRepeat mBorderImageRepeatH; // [reset]
mozilla::StyleBorderImageRepeat mBorderImageRepeatV; // [reset]
mozilla::StyleFloatEdge mFloatEdge; // [reset]
mozilla::StyleBoxDecorationBreak mBoxDecorationBreak; // [reset]
protected:
uint8_t mBorderStyle[4]; // [reset] See nsStyleConsts.h
public:
// [reset] the colors to use for a simple border.
// not used for -moz-border-colors
union {
struct {
mozilla::StyleComplexColor mBorderTopColor;
mozilla::StyleComplexColor mBorderRightColor;
mozilla::StyleComplexColor mBorderBottomColor;
mozilla::StyleComplexColor mBorderLeftColor;
};
mozilla::StyleComplexColor mBorderColor[4];
};
static mozilla::StyleComplexColor nsStyleBorder::*
BorderColorFieldFor(mozilla::Side aSide) {
switch (aSide) {
case mozilla::eSideTop:
return &nsStyleBorder::mBorderTopColor;
case mozilla::eSideRight:
return &nsStyleBorder::mBorderRightColor;
case mozilla::eSideBottom:
return &nsStyleBorder::mBorderBottomColor;
case mozilla::eSideLeft:
return &nsStyleBorder::mBorderLeftColor;
}
MOZ_ASSERT_UNREACHABLE("Unknown side");
return nullptr;
}
protected:
// mComputedBorder holds the CSS2.1 computed border-width values.
// In particular, these widths take into account the border-style
// for the relevant side, and the values are rounded to the nearest
// device pixel (which is not part of the definition of computed
// values). The presence or absence of a border-image does not
// affect border-width values.
nsMargin mComputedBorder;
// mBorder holds the nscoord values for the border widths as they
// would be if all the border-style values were visible (not hidden
// or none). This member exists so that when we create structs
// using the copy constructor during style resolution the new
// structs will know what the specified values of the border were in
// case they have more specific rules setting the border style.
//
// Note that this isn't quite the CSS specified value, since this
// has had the enumerated border widths converted to lengths, and
// all lengths converted to twips. But it's not quite the computed
// value either. The values are rounded to the nearest device pixel.
nsMargin mBorder;
private:
nscoord mTwipsPerPixel;
nsStyleBorder& operator=(const nsStyleBorder& aOther) = delete;
};
#define ASSERT_BORDER_COLOR_FIELD(side_) \
static_assert(offsetof(nsStyleBorder, mBorder##side_##Color) == \
offsetof(nsStyleBorder, mBorderColor) + \
size_t(mozilla::eSide##side_) * \
sizeof(mozilla::StyleComplexColor), \
"mBorder" #side_ "Color must be at same offset " \
"as mBorderColor[mozilla::eSide" #side_ "]")
ASSERT_BORDER_COLOR_FIELD(Top);
ASSERT_BORDER_COLOR_FIELD(Right);
ASSERT_BORDER_COLOR_FIELD(Bottom);
ASSERT_BORDER_COLOR_FIELD(Left);
#undef ASSERT_BORDER_COLOR_FIELD
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleOutline
{
explicit nsStyleOutline(const nsPresContext* aContext);
nsStyleOutline(const nsStyleOutline& aOutline);
~nsStyleOutline() {
MOZ_COUNT_DTOR(nsStyleOutline);
}
void FinishStyle(nsPresContext*, const nsStyleOutline*) {}
const static bool kHasFinishStyle = false;
void RecalcData();
nsChangeHint CalcDifference(const nsStyleOutline& aNewData) const;
nsStyleCorners mOutlineRadius; // [reset] coord, percent, calc
// This is the specified value of outline-width, but with length values
// computed to absolute. mActualOutlineWidth stores the outline-width
// value used by layout. (We must store mOutlineWidth for the same
// style struct resolution reasons that we do nsStyleBorder::mBorder;
// see that field's comment.)
nscoord mOutlineWidth; // [reset] coord, enum (see nsStyleConsts.h)
nscoord mOutlineOffset; // [reset]
mozilla::StyleComplexColor mOutlineColor; // [reset]
uint8_t mOutlineStyle; // [reset] See nsStyleConsts.h
nscoord GetOutlineWidth() const
{
return mActualOutlineWidth;
}
bool ShouldPaintOutline() const
{
return mOutlineStyle == NS_STYLE_BORDER_STYLE_AUTO ||
(GetOutlineWidth() > 0 &&
mOutlineStyle != NS_STYLE_BORDER_STYLE_NONE);
}
protected:
// The actual value of outline-width is the computed value (an absolute
// length, forced to zero when outline-style is none) rounded to device
// pixels. This is the value used by layout.
nscoord mActualOutlineWidth;
nscoord mTwipsPerPixel;
};
/**
* An object that allows sharing of arrays that store 'quotes' property
* values. This is particularly important for inheritance, where we want
* to share the same 'quotes' value with a parent ComputedStyle.
*/
class nsStyleQuoteValues
{
public:
typedef nsTArray<std::pair<nsString, nsString>> QuotePairArray;
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(nsStyleQuoteValues);
QuotePairArray mQuotePairs;
private:
~nsStyleQuoteValues() {}
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleList
{
explicit nsStyleList(const nsPresContext* aContext);
nsStyleList(const nsStyleList& aStyleList);
~nsStyleList();
void FinishStyle(nsPresContext*, const nsStyleList*);
const static bool kHasFinishStyle = true;
nsChangeHint CalcDifference(const nsStyleList& aNewData,
const nsStyleDisplay* aOldDisplay) const;
static void Shutdown() {
sInitialQuotes = nullptr;
sNoneQuotes = nullptr;
}
imgRequestProxy* GetListStyleImage() const
{
return mListStyleImage ? mListStyleImage->get() : nullptr;
}
already_AddRefed<nsIURI> GetListStyleImageURI() const;
const nsStyleQuoteValues::QuotePairArray& GetQuotePairs() const;
void SetQuotesInherit(const nsStyleList* aOther);
void SetQuotesInitial();
void SetQuotesNone();
void SetQuotes(nsStyleQuoteValues::QuotePairArray&& aValues);
uint8_t mListStylePosition; // [inherited]
RefPtr<nsStyleImageRequest> mListStyleImage; // [inherited]
mozilla::CounterStylePtr mCounterStyle; // [inherited]
private:
RefPtr<nsStyleQuoteValues> mQuotes; // [inherited]
nsStyleList& operator=(const nsStyleList& aOther) = delete;
public:
nsRect mImageRegion; // [inherited] the rect to use within an image
private:
// nsStyleQuoteValues objects representing two common values, for sharing.
static mozilla::StaticRefPtr<nsStyleQuoteValues> sInitialQuotes;
static mozilla::StaticRefPtr<nsStyleQuoteValues> sNoneQuotes;
};
struct nsStyleGridLine
{
// http://dev.w3.org/csswg/css-grid/#typedef-grid-line
// XXXmats we could optimize memory size here
bool mHasSpan;
int32_t mInteger; // 0 means not provided
nsString mLineName; // Empty string means not provided.
// These are the limits that we choose to clamp grid line numbers to.
// http://dev.w3.org/csswg/css-grid/#overlarge-grids
// mInteger is clamped to this range:
static const int32_t kMinLine = -10000;
static const int32_t kMaxLine = 10000;
nsStyleGridLine()
: mHasSpan(false)
, mInteger(0)
// mLineName get its default constructor, the empty string
{
}
nsStyleGridLine(const nsStyleGridLine& aOther)
{
(*this) = aOther;
}
void operator=(const nsStyleGridLine& aOther)
{
mHasSpan = aOther.mHasSpan;
mInteger = aOther.mInteger;
mLineName = aOther.mLineName;
}
bool operator!=(const nsStyleGridLine& aOther) const
{
return mHasSpan != aOther.mHasSpan ||
mInteger != aOther.mInteger ||
mLineName != aOther.mLineName;
}
void SetToInteger(uint32_t value)
{
mHasSpan = false;
mInteger = value;
mLineName.Truncate();
}
void SetAuto()
{
mHasSpan = false;
mInteger = 0;
mLineName.Truncate();
}
bool IsAuto() const
{
bool haveInitialValues = mInteger == 0 && mLineName.IsEmpty();
MOZ_ASSERT(!(haveInitialValues && mHasSpan),
"should not have 'span' when other components are "
"at their initial values");
return haveInitialValues;
}
};
// Computed value of the grid-template-columns or grid-template-rows property
// (but *not* grid-template-areas.)
// http://dev.w3.org/csswg/css-grid/#track-sizing
//
// This represents either:
// * none:
// mIsSubgrid is false, all three arrays are empty
// * <track-list>:
// mIsSubgrid is false,
// mMinTrackSizingFunctions and mMaxTrackSizingFunctions
// are of identical non-zero size,
// and mLineNameLists is one element longer than that.
// (Delimiting N columns requires N+1 lines:
// one before each track, plus one at the very end.)
//
// An omitted <line-names> is still represented in mLineNameLists,
// as an empty sub-array.
//
// A <track-size> specified as a single <track-breadth> is represented
// as identical min and max sizing functions.
// A 'fit-content(size)' <track-size> is represented as eStyleUnit_None
// in the min sizing function and 'size' in the max sizing function.
//
// The units for nsStyleCoord are:
// * eStyleUnit_Percent represents a <percentage>
// * eStyleUnit_FlexFraction represents a <flex> flexible fraction
// * eStyleUnit_Coord represents a <length>
// * eStyleUnit_Enumerated represents min-content or max-content
// * subgrid <line-name-list>?:
// mIsSubgrid is true,
// mLineNameLists may or may not be empty,
// mMinTrackSizingFunctions and mMaxTrackSizingFunctions are empty.
//
// If mRepeatAutoIndex != -1 then that index is an <auto-repeat> and
// mIsAutoFill == true means it's an 'auto-fill', otherwise 'auto-fit'.
// mRepeatAutoLineNameListBefore is the list of line names before the track
// size, mRepeatAutoLineNameListAfter the names after. (They are empty
// when there is no <auto-repeat> track, i.e. when mRepeatAutoIndex == -1).
// When mIsSubgrid is true, mRepeatAutoLineNameListBefore contains the line
// names and mRepeatAutoLineNameListAfter is empty.
struct nsStyleGridTemplate
{
nsTArray<nsTArray<nsString>> mLineNameLists;
nsTArray<nsStyleCoord> mMinTrackSizingFunctions;
nsTArray<nsStyleCoord> mMaxTrackSizingFunctions;
nsTArray<nsString> mRepeatAutoLineNameListBefore;
nsTArray<nsString> mRepeatAutoLineNameListAfter;
int16_t mRepeatAutoIndex; // -1 or the track index for an auto-fill/fit track
bool mIsAutoFill : 1;
bool mIsSubgrid : 1;
nsStyleGridTemplate()
: mRepeatAutoIndex(-1)
, mIsAutoFill(false)
, mIsSubgrid(false)
{
}
inline bool operator==(const nsStyleGridTemplate& aOther) const {
return
mIsSubgrid == aOther.mIsSubgrid &&
mLineNameLists == aOther.mLineNameLists &&
mMinTrackSizingFunctions == aOther.mMinTrackSizingFunctions &&
mMaxTrackSizingFunctions == aOther.mMaxTrackSizingFunctions &&
mIsAutoFill == aOther.mIsAutoFill &&
mRepeatAutoIndex == aOther.mRepeatAutoIndex &&
mRepeatAutoLineNameListBefore == aOther.mRepeatAutoLineNameListBefore &&
mRepeatAutoLineNameListAfter == aOther.mRepeatAutoLineNameListAfter;
}
bool HasRepeatAuto() const {
return mRepeatAutoIndex != -1;
}
bool IsRepeatAutoIndex(uint32_t aIndex) const {
MOZ_ASSERT(aIndex < uint32_t(2*nsStyleGridLine::kMaxLine));
return int32_t(aIndex) == mRepeatAutoIndex;
}
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStylePosition
{
explicit nsStylePosition(const nsPresContext* aContext);
nsStylePosition(const nsStylePosition& aOther);
~nsStylePosition();
void FinishStyle(nsPresContext*, const nsStylePosition*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStylePosition& aNewData,
const nsStyleVisibility* aOldStyleVisibility) const;
/**
* Return the used value for 'align-self' given our parent ComputedStyle
* aParent (or null for the root).
*/
uint8_t UsedAlignSelf(mozilla::ComputedStyle* aParent) const;
/**
* Return the used value for 'justify-self' given our parent ComputedStyle
* aParent (or null for the root).
*/
uint8_t UsedJustifySelf(mozilla::ComputedStyle* aParent) const;
mozilla::Position mObjectPosition; // [reset]
nsStyleSides mOffset; // [reset] coord, percent, calc, auto
nsStyleCoord mWidth; // [reset] coord, percent, enum, calc, auto
nsStyleCoord mMinWidth; // [reset] coord, percent, enum, calc
nsStyleCoord mMaxWidth; // [reset] coord, percent, enum, calc, none
nsStyleCoord mHeight; // [reset] coord, percent, calc, auto
nsStyleCoord mMinHeight; // [reset] coord, percent, calc
nsStyleCoord mMaxHeight; // [reset] coord, percent, calc, none
nsStyleCoord mFlexBasis; // [reset] coord, percent, enum, calc, auto
nsStyleCoord mGridAutoColumnsMin; // [reset] coord, percent, enum, calc, flex
nsStyleCoord mGridAutoColumnsMax; // [reset] coord, percent, enum, calc, flex
nsStyleCoord mGridAutoRowsMin; // [reset] coord, percent, enum, calc, flex
nsStyleCoord mGridAutoRowsMax; // [reset] coord, percent, enum, calc, flex
uint8_t mGridAutoFlow; // [reset] enumerated. See nsStyleConsts.h
mozilla::StyleBoxSizing mBoxSizing; // [reset] see nsStyleConsts.h
uint16_t mAlignContent; // [reset] fallback value in the high byte
uint8_t mAlignItems; // [reset] see nsStyleConsts.h
uint8_t mAlignSelf; // [reset] see nsStyleConsts.h
uint16_t mJustifyContent; // [reset] fallback value in the high byte
// We cascade mSpecifiedJustifyItems, to handle the auto value, but store the
// computed value in mJustifyItems.
//
// They're effectively only different in this regard: mJustifyItems is set to
// mSpecifiedJustifyItems, except when the latter is AUTO -- in that case,
// mJustifyItems is set to NORMAL, or to the parent ComputedStyle's
// mJustifyItems if it has the legacy flag.
//
// This last part happens in ComputedStyle::ApplyStyleFixups.
uint8_t mSpecifiedJustifyItems; // [reset] see nsStyleConsts.h
uint8_t mJustifyItems; // [reset] see nsStyleConsts.h
uint8_t mJustifySelf; // [reset] see nsStyleConsts.h
uint8_t mFlexDirection; // [reset] see nsStyleConsts.h
uint8_t mFlexWrap; // [reset] see nsStyleConsts.h
uint8_t mObjectFit; // [reset] see nsStyleConsts.h
int32_t mOrder; // [reset] integer
float mFlexGrow; // [reset] float
float mFlexShrink; // [reset] float
nsStyleCoord mZIndex; // [reset] integer, auto
mozilla::UniquePtr<nsStyleGridTemplate> mGridTemplateColumns;
mozilla::UniquePtr<nsStyleGridTemplate> mGridTemplateRows;
// nullptr for 'none'
RefPtr<mozilla::css::GridTemplateAreasValue> mGridTemplateAreas;
nsStyleGridLine mGridColumnStart;
nsStyleGridLine mGridColumnEnd;
nsStyleGridLine mGridRowStart;
nsStyleGridLine mGridRowEnd;
nsStyleCoord mColumnGap; // [reset] normal, coord, percent, calc
nsStyleCoord mRowGap; // [reset] normal, coord, percent, calc
// FIXME: Logical-coordinate equivalents to these WidthDepends... and
// HeightDepends... methods have been introduced (see below); we probably
// want to work towards removing the physical methods, and using the logical
// ones in all cases.
bool WidthDependsOnContainer() const
{
return mWidth.GetUnit() == eStyleUnit_Auto ||
WidthCoordDependsOnContainer(mWidth);
}
// NOTE: For a flex item, "min-width:auto" is supposed to behave like
// "min-content", which does depend on the container, so you might think we'd
// need a special case for "flex item && min-width:auto" here. However,
// we don't actually need that special-case code, because flex items are
// explicitly supposed to *ignore* their min-width (i.e. behave like it's 0)
// until the flex container explicitly considers it. So -- since the flex
// container doesn't rely on this method, we don't need to worry about
// special behavior for flex items' "min-width:auto" values here.
bool MinWidthDependsOnContainer() const
{ return WidthCoordDependsOnContainer(mMinWidth); }
bool MaxWidthDependsOnContainer() const
{ return WidthCoordDependsOnContainer(mMaxWidth); }
// Note that these functions count 'auto' as depending on the
// container since that's the case for absolutely positioned elements.
// However, some callers do not care about this case and should check
// for it, since it is the most common case.
// FIXME: We should probably change the assumption to be the other way
// around.
// Consider this as part of moving to the logical-coordinate APIs.
bool HeightDependsOnContainer() const
{
return mHeight.GetUnit() == eStyleUnit_Auto || // CSS 2.1, 10.6.4, item (5)
HeightCoordDependsOnContainer(mHeight);
}
// NOTE: The comment above MinWidthDependsOnContainer about flex items
// applies here, too.
bool MinHeightDependsOnContainer() const
{ return HeightCoordDependsOnContainer(mMinHeight); }
bool MaxHeightDependsOnContainer() const
{ return HeightCoordDependsOnContainer(mMaxHeight); }
bool OffsetHasPercent(mozilla::Side aSide) const
{
return mOffset.Get(aSide).HasPercent();
}
// Logical-coordinate accessors for width and height properties,
// given a WritingMode value. The definitions of these methods are
// found in WritingModes.h (after the WritingMode class is fully
// declared).
inline nsStyleCoord& ISize(mozilla::WritingMode aWM);
inline nsStyleCoord& MinISize(mozilla::WritingMode aWM);
inline nsStyleCoord& MaxISize(mozilla::WritingMode aWM);
inline nsStyleCoord& BSize(mozilla::WritingMode aWM);
inline nsStyleCoord& MinBSize(mozilla::WritingMode aWM);
inline nsStyleCoord& MaxBSize(mozilla::WritingMode aWM);
inline const nsStyleCoord& ISize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& MinISize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& MaxISize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& BSize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& MinBSize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& MaxBSize(mozilla::WritingMode aWM) const;
inline bool ISizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool MinISizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool MaxISizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool BSizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool MinBSizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool MaxBSizeDependsOnContainer(mozilla::WritingMode aWM) const;
const nsStyleGridTemplate& GridTemplateColumns() const;
const nsStyleGridTemplate& GridTemplateRows() const;
private:
static bool WidthCoordDependsOnContainer(const nsStyleCoord &aCoord);
static bool HeightCoordDependsOnContainer(const nsStyleCoord &aCoord)
{ return aCoord.HasPercent(); }
};
struct nsStyleTextOverflowSide
{
nsStyleTextOverflowSide() : mType(NS_STYLE_TEXT_OVERFLOW_CLIP) {}
bool operator==(const nsStyleTextOverflowSide& aOther) const {
return mType == aOther.mType &&
(mType != NS_STYLE_TEXT_OVERFLOW_STRING ||
mString == aOther.mString);
}
bool operator!=(const nsStyleTextOverflowSide& aOther) const {
return !(*this == aOther);
}
nsString mString;
uint8_t mType;
};
struct nsStyleTextOverflow
{
nsStyleTextOverflow() : mLogicalDirections(true) {}
bool operator==(const nsStyleTextOverflow& aOther) const {
return mLeft == aOther.mLeft && mRight == aOther.mRight;
}
bool operator!=(const nsStyleTextOverflow& aOther) const {
return !(*this == aOther);
}
// Returns the value to apply on the left side.
const nsStyleTextOverflowSide& GetLeft(uint8_t aDirection) const {
NS_ASSERTION(aDirection == NS_STYLE_DIRECTION_LTR ||
aDirection == NS_STYLE_DIRECTION_RTL, "bad direction");
return !mLogicalDirections || aDirection == NS_STYLE_DIRECTION_LTR ?
mLeft : mRight;
}
// Returns the value to apply on the right side.
const nsStyleTextOverflowSide& GetRight(uint8_t aDirection) const {
NS_ASSERTION(aDirection == NS_STYLE_DIRECTION_LTR ||
aDirection == NS_STYLE_DIRECTION_RTL, "bad direction");
return !mLogicalDirections || aDirection == NS_STYLE_DIRECTION_LTR ?
mRight : mLeft;
}
// Returns the first value that was specified.
const nsStyleTextOverflowSide* GetFirstValue() const {
return mLogicalDirections ? &mRight : &mLeft;
}
// Returns the second value, or null if there was only one value specified.
const nsStyleTextOverflowSide* GetSecondValue() const {
return mLogicalDirections ? nullptr : &mRight;
}
nsStyleTextOverflowSide mLeft; // start side when mLogicalDirections is true
nsStyleTextOverflowSide mRight; // end side when mLogicalDirections is true
bool mLogicalDirections; // true when only one value was specified
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleTextReset
{
explicit nsStyleTextReset(const nsPresContext* aContext);
nsStyleTextReset(const nsStyleTextReset& aOther);
~nsStyleTextReset();
void FinishStyle(nsPresContext*, const nsStyleTextReset*) {}
const static bool kHasFinishStyle = false;
// Note the difference between this and
// ComputedStyle::HasTextDecorationLines.
bool HasTextDecorationLines() const {
return mTextDecorationLine != NS_STYLE_TEXT_DECORATION_LINE_NONE &&
mTextDecorationLine != NS_STYLE_TEXT_DECORATION_LINE_OVERRIDE_ALL;
}
nsChangeHint CalcDifference(const nsStyleTextReset& aNewData) const;
nsStyleTextOverflow mTextOverflow; // [reset] enum, string
uint8_t mTextDecorationLine; // [reset] see nsStyleConsts.h
uint8_t mTextDecorationStyle; // [reset] see nsStyleConsts.h
uint8_t mUnicodeBidi; // [reset] see nsStyleConsts.h
nscoord mInitialLetterSink; // [reset] 0 means normal
float mInitialLetterSize; // [reset] 0.0f means normal
mozilla::StyleComplexColor mTextDecorationColor; // [reset]
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleText
{
explicit nsStyleText(const nsPresContext* aContext);
nsStyleText(const nsStyleText& aOther);
~nsStyleText();
void FinishStyle(nsPresContext*, const nsStyleText*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleText& aNewData) const;
uint8_t mTextAlign; // [inherited] see nsStyleConsts.h
uint8_t mTextAlignLast; // [inherited] see nsStyleConsts.h
bool mTextAlignTrue : 1; // [inherited] see nsStyleConsts.h
bool mTextAlignLastTrue : 1; // [inherited] see nsStyleConsts.h
mozilla::StyleTextJustify mTextJustify; // [inherited]
uint8_t mTextTransform; // [inherited] see nsStyleConsts.h
mozilla::StyleWhiteSpace mWhiteSpace; // [inherited] see nsStyleConsts.h
uint8_t mWordBreak; // [inherited] see nsStyleConsts.h
uint8_t mOverflowWrap; // [inherited] see nsStyleConsts.h
mozilla::StyleHyphens mHyphens; // [inherited] see nsStyleConsts.h
uint8_t mRubyAlign; // [inherited] see nsStyleConsts.h
uint8_t mRubyPosition; // [inherited] see nsStyleConsts.h
uint8_t mTextSizeAdjust; // [inherited] see nsStyleConsts.h
uint8_t mTextCombineUpright; // [inherited] see nsStyleConsts.h
uint8_t mControlCharacterVisibility; // [inherited] see nsStyleConsts.h
uint8_t mTextEmphasisPosition; // [inherited] see nsStyleConsts.h
uint8_t mTextEmphasisStyle; // [inherited] see nsStyleConsts.h
uint8_t mTextRendering; // [inherited] see nsStyleConsts.h
mozilla::StyleComplexColor mTextEmphasisColor; // [inherited]
mozilla::StyleComplexColor mWebkitTextFillColor; // [inherited]
mozilla::StyleComplexColor mWebkitTextStrokeColor; // [inherited]
nsStyleCoord mTabSize; // [inherited] coord, factor, calc
nsStyleCoord mWordSpacing; // [inherited] coord, percent, calc
nsStyleCoord mLetterSpacing; // [inherited] coord, normal
nsStyleCoord mLineHeight; // [inherited] coord, factor, normal
nsStyleCoord mTextIndent; // [inherited] coord, percent, calc
nscoord mWebkitTextStrokeWidth; // [inherited] coord
RefPtr<nsCSSShadowArray> mTextShadow; // [inherited] nullptr in case of a zero-length
nsString mTextEmphasisStyleString; // [inherited]
bool WhiteSpaceIsSignificant() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Pre ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreSpace;
}
bool NewlineIsSignificantStyle() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Pre ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreLine;
}
bool WhiteSpaceOrNewlineIsSignificant() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Pre ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreLine ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreSpace;
}
bool TabIsSignificant() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Pre ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap;
}
bool WhiteSpaceCanWrapStyle() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Normal ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreLine;
}
bool WordCanWrapStyle() const {
return WhiteSpaceCanWrapStyle() &&
mOverflowWrap == NS_STYLE_OVERFLOWWRAP_BREAK_WORD;
}
bool HasTextEmphasis() const {
return !mTextEmphasisStyleString.IsEmpty();
}
bool HasWebkitTextStroke() const {
return mWebkitTextStrokeWidth > 0;
}
// These are defined in nsStyleStructInlines.h.
inline bool HasTextShadow() const;
inline nsCSSShadowArray* GetTextShadow() const;
// The aContextFrame argument on each of these is the frame this
// style struct is for. If the frame is for SVG text or inside ruby,
// the return value will be massaged to be something that makes sense
// for those cases.
inline bool NewlineIsSignificant(const nsTextFrame* aContextFrame) const;
inline bool WhiteSpaceCanWrap(const nsIFrame* aContextFrame) const;
inline bool WordCanWrap(const nsIFrame* aContextFrame) const;
mozilla::LogicalSide TextEmphasisSide(mozilla::WritingMode aWM) const;
};
struct nsStyleImageOrientation
{
static nsStyleImageOrientation CreateAsAngleAndFlip(double aRadians,
bool aFlip) {
uint8_t orientation(0);
// Compute the final angle value, rounding to the closest quarter turn.
double roundedAngle = fmod(aRadians, 2 * M_PI);
if (roundedAngle < 0) {
roundedAngle = roundedAngle + 2 * M_PI;
}
if (roundedAngle < 0.25 * M_PI) { orientation = ANGLE_0; }
else if (roundedAngle < 0.75 * M_PI) { orientation = ANGLE_90; }
else if (roundedAngle < 1.25 * M_PI) { orientation = ANGLE_180;}
else if (roundedAngle < 1.75 * M_PI) { orientation = ANGLE_270;}
else { orientation = ANGLE_0; }
// Add a bit for 'flip' if needed.
if (aFlip) {
orientation |= FLIP_MASK;
}
return nsStyleImageOrientation(orientation);
}
static nsStyleImageOrientation CreateAsOrientationAndFlip(uint8_t aOrientation,
bool aFlip) {
MOZ_ASSERT(aOrientation <= ANGLE_270);
if (aFlip) {
aOrientation |= FLIP_MASK;
}
return nsStyleImageOrientation(aOrientation);
}
static nsStyleImageOrientation CreateAsFlip() {
return nsStyleImageOrientation(FLIP_MASK);
}
static nsStyleImageOrientation CreateAsFromImage() {
return nsStyleImageOrientation(FROM_IMAGE_MASK);
}
// The default constructor yields 0 degrees of rotation and no flip.
nsStyleImageOrientation() : mOrientation(0) { }
bool IsDefault() const { return mOrientation == 0; }
bool IsFlipped() const { return mOrientation & FLIP_MASK; }
bool IsFromImage() const { return mOrientation & FROM_IMAGE_MASK; }
bool SwapsWidthAndHeight() const {
uint8_t angle = mOrientation & ORIENTATION_MASK;
return (angle == ANGLE_90) || (angle == ANGLE_270);
}
mozilla::image::Angle Angle() const {
switch (mOrientation & ORIENTATION_MASK) {
case ANGLE_0: return mozilla::image::Angle::D0;
case ANGLE_90: return mozilla::image::Angle::D90;
case ANGLE_180: return mozilla::image::Angle::D180;
case ANGLE_270: return mozilla::image::Angle::D270;
default:
NS_NOTREACHED("Unexpected angle");
return mozilla::image::Angle::D0;
}
}
nsStyleCoord AngleAsCoord() const {
switch (mOrientation & ORIENTATION_MASK) {
case ANGLE_0: return nsStyleCoord(0.0f, eStyleUnit_Degree);
case ANGLE_90: return nsStyleCoord(90.0f, eStyleUnit_Degree);
case ANGLE_180: return nsStyleCoord(180.0f, eStyleUnit_Degree);
case ANGLE_270: return nsStyleCoord(270.0f, eStyleUnit_Degree);
default:
NS_NOTREACHED("Unexpected angle");
return nsStyleCoord();
}
}
bool operator==(const nsStyleImageOrientation& aOther) const {
return aOther.mOrientation == mOrientation;
}
bool operator!=(const nsStyleImageOrientation& aOther) const {
return !(*this == aOther);
}
protected:
enum Bits {
ORIENTATION_MASK = 0x1 | 0x2, // The bottom two bits are the angle.
FLIP_MASK = 0x4, // Whether the image should be flipped.
FROM_IMAGE_MASK = 0x8, // Whether the image's inherent orientation
}; // should be used.
enum Angles {
ANGLE_0 = 0,
ANGLE_90 = 1,
ANGLE_180 = 2,
ANGLE_270 = 3,
};
explicit nsStyleImageOrientation(uint8_t aOrientation)
: mOrientation(aOrientation)
{ }
uint8_t mOrientation;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleVisibility
{
explicit nsStyleVisibility(const nsPresContext* aContext);
nsStyleVisibility(const nsStyleVisibility& aVisibility);
~nsStyleVisibility() {
MOZ_COUNT_DTOR(nsStyleVisibility);
}
void FinishStyle(nsPresContext*, const nsStyleVisibility*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleVisibility& aNewData) const;
nsStyleImageOrientation mImageOrientation; // [inherited]
uint8_t mDirection; // [inherited] see nsStyleConsts.h NS_STYLE_DIRECTION_*
uint8_t mVisible; // [inherited]
uint8_t mImageRendering; // [inherited] see nsStyleConsts.h
uint8_t mWritingMode; // [inherited] see nsStyleConsts.h
uint8_t mTextOrientation; // [inherited] see nsStyleConsts.h
uint8_t mColorAdjust; // [inherited] see nsStyleConsts.h
bool IsVisible() const {
return (mVisible == NS_STYLE_VISIBILITY_VISIBLE);
}
bool IsVisibleOrCollapsed() const {
return ((mVisible == NS_STYLE_VISIBILITY_VISIBLE) ||
(mVisible == NS_STYLE_VISIBILITY_COLLAPSE));
}
};
namespace mozilla {
struct StyleTransition
{
StyleTransition() { /* leaves uninitialized; see also SetInitialValues */ }
explicit StyleTransition(const StyleTransition& aCopy);
void SetInitialValues();
// Delay and Duration are in milliseconds
const nsTimingFunction& GetTimingFunction() const { return mTimingFunction; }
float GetDelay() const { return mDelay; }
float GetDuration() const { return mDuration; }
nsCSSPropertyID GetProperty() const { return mProperty; }
nsAtom* GetUnknownProperty() const { return mUnknownProperty; }
void SetTimingFunction(const nsTimingFunction& aTimingFunction)
{ mTimingFunction = aTimingFunction; }
void SetDelay(float aDelay) { mDelay = aDelay; }
void SetDuration(float aDuration) { mDuration = aDuration; }
void SetProperty(nsCSSPropertyID aProperty)
{
NS_ASSERTION(aProperty != eCSSProperty_UNKNOWN &&
aProperty != eCSSPropertyExtra_variable,
"invalid property");
mProperty = aProperty;
}
void SetUnknownProperty(nsCSSPropertyID aProperty,
const nsAString& aPropertyString);
void SetUnknownProperty(nsCSSPropertyID aProperty,
nsAtom* aPropertyString);
void CopyPropertyFrom(const StyleTransition& aOther)
{
mProperty = aOther.mProperty;
mUnknownProperty = aOther.mUnknownProperty;
}
nsTimingFunction& TimingFunctionSlot() { return mTimingFunction; }
bool operator==(const StyleTransition& aOther) const;
bool operator!=(const StyleTransition& aOther) const
{ return !(*this == aOther); }
private:
nsTimingFunction mTimingFunction;
float mDuration;
float mDelay;
nsCSSPropertyID mProperty;
RefPtr<nsAtom> mUnknownProperty; // used when mProperty is
// eCSSProperty_UNKNOWN or
// eCSSPropertyExtra_variable
};
struct StyleAnimation
{
StyleAnimation() { /* leaves uninitialized; see also SetInitialValues */ }
explicit StyleAnimation(const StyleAnimation& aCopy);
void SetInitialValues();
// Delay and Duration are in milliseconds
const nsTimingFunction& GetTimingFunction() const { return mTimingFunction; }
float GetDelay() const { return mDelay; }
float GetDuration() const { return mDuration; }
nsAtom* GetName() const { return mName; }
dom::PlaybackDirection GetDirection() const { return mDirection; }
dom::FillMode GetFillMode() const { return mFillMode; }
uint8_t GetPlayState() const { return mPlayState; }
float GetIterationCount() const { return mIterationCount; }
void SetTimingFunction(const nsTimingFunction& aTimingFunction)
{ mTimingFunction = aTimingFunction; }
void SetDelay(float aDelay) { mDelay = aDelay; }
void SetDuration(float aDuration) { mDuration = aDuration; }
void SetName(already_AddRefed<nsAtom> aName) { mName = aName; }
void SetName(nsAtom* aName) { mName = aName; }
void SetDirection(dom::PlaybackDirection aDirection) { mDirection = aDirection; }
void SetFillMode(dom::FillMode aFillMode) { mFillMode = aFillMode; }
void SetPlayState(uint8_t aPlayState) { mPlayState = aPlayState; }
void SetIterationCount(float aIterationCount)
{ mIterationCount = aIterationCount; }
nsTimingFunction& TimingFunctionSlot() { return mTimingFunction; }
bool operator==(const StyleAnimation& aOther) const;
bool operator!=(const StyleAnimation& aOther) const
{ return !(*this == aOther); }
private:
nsTimingFunction mTimingFunction;
float mDuration;
float mDelay;
RefPtr<nsAtom> mName; // nsGkAtoms::_empty for 'none'
dom::PlaybackDirection mDirection;
dom::FillMode mFillMode;
uint8_t mPlayState;
float mIterationCount; // mozilla::PositiveInfinity<float>() means infinite
};
class StyleBasicShape final
{
public:
explicit StyleBasicShape(StyleBasicShapeType type)
: mType(type),
mFillRule(StyleFillRule::Nonzero)
{
mPosition.SetInitialPercentValues(0.5f);
}
StyleBasicShapeType GetShapeType() const { return mType; }
nsCSSKeyword GetShapeTypeName() const;
StyleFillRule GetFillRule() const { return mFillRule; }
void SetFillRule(StyleFillRule aFillRule)
{
MOZ_ASSERT(mType == StyleBasicShapeType::Polygon, "expected polygon");
mFillRule = aFillRule;
}
mozilla::Position& GetPosition() {
MOZ_ASSERT(mType == StyleBasicShapeType::Circle ||
mType == StyleBasicShapeType::Ellipse,
"expected circle or ellipse");
return mPosition;
}
const mozilla::Position& GetPosition() const {
MOZ_ASSERT(mType == StyleBasicShapeType::Circle ||
mType == StyleBasicShapeType::Ellipse,
"expected circle or ellipse");
return mPosition;
}
bool HasRadius() const {
MOZ_ASSERT(mType == StyleBasicShapeType::Inset, "expected inset");
nsStyleCoord zero;
zero.SetCoordValue(0);
NS_FOR_CSS_HALF_CORNERS(corner) {
if (mRadius.Get(corner) != zero) {
return true;
}
}
return false;
}
nsStyleCorners& GetRadius() {
MOZ_ASSERT(mType == StyleBasicShapeType::Inset, "expected inset");
return mRadius;
}
const nsStyleCorners& GetRadius() const {
MOZ_ASSERT(mType == StyleBasicShapeType::Inset, "expected inset");
return mRadius;
}
// mCoordinates has coordinates for polygon or radii for
// ellipse and circle.
nsTArray<nsStyleCoord>& Coordinates()
{
return mCoordinates;
}
const nsTArray<nsStyleCoord>& Coordinates() const
{
return mCoordinates;
}
bool operator==(const StyleBasicShape& aOther) const
{
return mType == aOther.mType &&
mFillRule == aOther.mFillRule &&
mCoordinates == aOther.mCoordinates &&
mPosition == aOther.mPosition &&
mRadius == aOther.mRadius;
}
bool operator!=(const StyleBasicShape& aOther) const {
return !(*this == aOther);
}
private:
StyleBasicShapeType mType;
StyleFillRule mFillRule;
// mCoordinates has coordinates for polygon or radii for
// ellipse and circle.
// (top, right, bottom, left) for inset
nsTArray<nsStyleCoord> mCoordinates;
// position of center for ellipse or circle
mozilla::Position mPosition;
// corner radii for inset (0 if not set)
nsStyleCorners mRadius;
};
struct StyleShapeSource final
{
StyleShapeSource() = default;
StyleShapeSource(const StyleShapeSource& aSource);
~StyleShapeSource()
{
}
StyleShapeSource& operator=(const StyleShapeSource& aOther);
bool operator==(const StyleShapeSource& aOther) const;
bool operator!=(const StyleShapeSource& aOther) const
{
return !(*this == aOther);
}
StyleShapeSourceType GetType() const
{
return mType;
}
css::URLValue* GetURL() const
{
MOZ_ASSERT(mType == StyleShapeSourceType::URL, "Wrong shape source type!");
return mShapeImage
? static_cast<css::URLValue*>(mShapeImage->GetURLValue())
: nullptr;
}
void SetURL(css::URLValue* aValue);
const UniquePtr<nsStyleImage>& GetShapeImage() const
{
MOZ_ASSERT(mType == StyleShapeSourceType::Image, "Wrong shape source type!");
return mShapeImage;
}
// Iff we have "shape-outside:<image>" with an image URI (not a gradient),
// this method returns the corresponding imgIRequest*. Else, returns
// null.
imgIRequest* GetShapeImageData() const;
void SetShapeImage(UniquePtr<nsStyleImage> aShapeImage);
const UniquePtr<StyleBasicShape>& GetBasicShape() const
{
MOZ_ASSERT(mType == StyleShapeSourceType::Shape, "Wrong shape source type!");
return mBasicShape;
}
void SetBasicShape(UniquePtr<StyleBasicShape> aBasicShape,
StyleGeometryBox aReferenceBox);
StyleGeometryBox GetReferenceBox() const
{
MOZ_ASSERT(mType == StyleShapeSourceType::Box ||
mType == StyleShapeSourceType::Shape,
"Wrong shape source type!");
return mReferenceBox;
}
void SetReferenceBox(StyleGeometryBox aReferenceBox);
private:
void* operator new(size_t) = delete;
void DoCopy(const StyleShapeSource& aOther);
mozilla::UniquePtr<StyleBasicShape> mBasicShape;
mozilla::UniquePtr<nsStyleImage> mShapeImage;
StyleShapeSourceType mType = StyleShapeSourceType::None;
StyleGeometryBox mReferenceBox = StyleGeometryBox::NoBox;
};
} // namespace mozilla
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleDisplay
{
typedef mozilla::StyleGeometryBox StyleGeometryBox;
explicit nsStyleDisplay(const nsPresContext* aContext);
nsStyleDisplay(const nsStyleDisplay& aOther);
~nsStyleDisplay();
void FinishStyle(nsPresContext*, const nsStyleDisplay*);
const static bool kHasFinishStyle = true;
nsChangeHint CalcDifference(const nsStyleDisplay& aNewData) const;
// We guarantee that if mBinding is non-null, so are mBinding->GetURI() and
// mBinding->mOriginPrincipal.
RefPtr<mozilla::css::URLValue> mBinding; // [reset]
mozilla::StyleDisplay mDisplay; // [reset] see nsStyleConsts.h StyleDisplay
mozilla::StyleDisplay mOriginalDisplay; // [reset] saved mDisplay for
// position:absolute/fixed
// and float:left/right;
// otherwise equal to
// mDisplay
uint8_t mContain; // [reset] see nsStyleConsts.h NS_STYLE_CONTAIN_*
uint8_t mAppearance; // [reset]
uint8_t mPosition; // [reset] see nsStyleConsts.h
// [reset] See StyleFloat in nsStyleConsts.h.
mozilla::StyleFloat mFloat;
// [reset] Save mFloat for position:absolute/fixed; otherwise equal to mFloat.
mozilla::StyleFloat mOriginalFloat;
mozilla::StyleClear mBreakType; // [reset]
uint8_t mBreakInside; // [reset] NS_STYLE_PAGE_BREAK_AUTO/AVOID
bool mBreakBefore; // [reset]
bool mBreakAfter; // [reset]
uint8_t mOverflowX; // [reset] see nsStyleConsts.h
uint8_t mOverflowY; // [reset] see nsStyleConsts.h
uint8_t mOverflowClipBoxBlock; // [reset] see nsStyleConsts.h
uint8_t mOverflowClipBoxInline; // [reset] see nsStyleConsts.h
uint8_t mResize; // [reset] see nsStyleConsts.h
mozilla::StyleOrient mOrient; // [reset] see nsStyleConsts.h
uint8_t mIsolation; // [reset] see nsStyleConsts.h
uint8_t mTopLayer; // [reset] see nsStyleConsts.h
uint8_t mWillChangeBitField; // [reset] see nsStyleConsts.h. Stores a
// bitfield representation of the properties
// that are frequently queried. This should
// match mWillChange. Also tracks if any of the
// properties in the will-change list require
// a stacking context.
nsTArray<RefPtr<nsAtom>> mWillChange;
uint8_t mTouchAction; // [reset] see nsStyleConsts.h
uint8_t mScrollBehavior; // [reset] see nsStyleConsts.h NS_STYLE_SCROLL_BEHAVIOR_*
mozilla::StyleOverscrollBehavior mOverscrollBehaviorX; // [reset] see nsStyleConsts.h
mozilla::StyleOverscrollBehavior mOverscrollBehaviorY; // [reset] see nsStyleConsts.h
uint8_t mScrollSnapTypeX; // [reset] see nsStyleConsts.h NS_STYLE_SCROLL_SNAP_TYPE_*
uint8_t mScrollSnapTypeY; // [reset] see nsStyleConsts.h NS_STYLE_SCROLL_SNAP_TYPE_*
nsStyleCoord mScrollSnapPointsX; // [reset]
nsStyleCoord mScrollSnapPointsY; // [reset]
mozilla::Position mScrollSnapDestination; // [reset]
nsTArray<mozilla::Position> mScrollSnapCoordinate; // [reset]
// mSpecifiedTransform is the list of transform functions as
// specified, or null to indicate there is no transform. (inherit or
// initial are replaced by an actual list of transform functions, or
// null, as appropriate.)
uint8_t mBackfaceVisibility;
uint8_t mTransformStyle;
StyleGeometryBox mTransformBox; // [reset] see nsStyleConsts.h
RefPtr<nsCSSValueSharedList> mSpecifiedTransform; // [reset]
RefPtr<nsCSSValueSharedList> mSpecifiedRotate; // [reset]
RefPtr<nsCSSValueSharedList> mSpecifiedTranslate; // [reset]
RefPtr<nsCSSValueSharedList> mSpecifiedScale; // [reset]
// Used to store the final combination of mSpecifiedTranslate,
// mSpecifiedRotate, mSpecifiedScale and mSpecifiedTransform.
// Use GetCombinedTransform() to get the final transform, instead of
// accessing mCombinedTransform directly.
RefPtr<nsCSSValueSharedList> mCombinedTransform;
nsStyleCoord mTransformOrigin[3]; // [reset] percent, coord, calc, 3rd param is coord, calc only
nsStyleCoord mChildPerspective; // [reset] none, coord
nsStyleCoord mPerspectiveOrigin[2]; // [reset] percent, coord, calc
nsStyleCoord mVerticalAlign; // [reset] coord, percent, calc, enum (see nsStyleConsts.h)
nsStyleAutoArray<mozilla::StyleTransition> mTransitions; // [reset]
// The number of elements in mTransitions that are not from repeating
// a list due to another property being longer.
uint32_t mTransitionTimingFunctionCount,
mTransitionDurationCount,
mTransitionDelayCount,
mTransitionPropertyCount;
nsCSSPropertyID GetTransitionProperty(uint32_t aIndex) const
{
return mTransitions[aIndex % mTransitionPropertyCount].GetProperty();
}
float GetTransitionDelay(uint32_t aIndex) const
{
return mTransitions[aIndex % mTransitionDelayCount].GetDelay();
}
float GetTransitionDuration(uint32_t aIndex) const
{
return mTransitions[aIndex % mTransitionDurationCount].GetDuration();
}
const nsTimingFunction& GetTransitionTimingFunction(uint32_t aIndex) const
{
return mTransitions[aIndex % mTransitionTimingFunctionCount].GetTimingFunction();
}
float GetTransitionCombinedDuration(uint32_t aIndex) const
{
// https://drafts.csswg.org/css-transitions/#transition-combined-duration
return
std::max(mTransitions[aIndex % mTransitionDurationCount].GetDuration(),
0.0f)
+ mTransitions[aIndex % mTransitionDelayCount].GetDelay();
}
nsStyleAutoArray<mozilla::StyleAnimation> mAnimations; // [reset]
// The number of elements in mAnimations that are not from repeating
// a list due to another property being longer.
uint32_t mAnimationTimingFunctionCount,
mAnimationDurationCount,
mAnimationDelayCount,
mAnimationNameCount,
mAnimationDirectionCount,
mAnimationFillModeCount,
mAnimationPlayStateCount,
mAnimationIterationCountCount;
nsAtom* GetAnimationName(uint32_t aIndex) const
{
return mAnimations[aIndex % mAnimationNameCount].GetName();
}
float GetAnimationDelay(uint32_t aIndex) const
{
return mAnimations[aIndex % mAnimationDelayCount].GetDelay();
}
float GetAnimationDuration(uint32_t aIndex) const
{
return mAnimations[aIndex % mAnimationDurationCount].GetDuration();
}
mozilla::dom::PlaybackDirection GetAnimationDirection(uint32_t aIndex) const
{
return mAnimations[aIndex % mAnimationDirectionCount].GetDirection();
}
mozilla::dom::FillMode GetAnimationFillMode(uint32_t aIndex) const
{
return mAnimations[aIndex % mAnimationFillModeCount].GetFillMode();
}
uint8_t GetAnimationPlayState(uint32_t aIndex) const
{
return mAnimations[aIndex % mAnimationPlayStateCount].GetPlayState();
}
float GetAnimationIterationCount(uint32_t aIndex) const
{
return mAnimations[aIndex % mAnimationIterationCountCount].GetIterationCount();
}
const nsTimingFunction& GetAnimationTimingFunction(uint32_t aIndex) const
{
return mAnimations[aIndex % mAnimationTimingFunctionCount].GetTimingFunction();
}
// The threshold used for extracting a shape from shape-outside: <image>.
float mShapeImageThreshold = 0.0f; // [reset]
// The margin around a shape-outside: <image>.
nsStyleCoord mShapeMargin;
mozilla::StyleShapeSource mShapeOutside; // [reset]
bool IsBlockInsideStyle() const {
return mozilla::StyleDisplay::Block == mDisplay ||
mozilla::StyleDisplay::ListItem == mDisplay ||
mozilla::StyleDisplay::InlineBlock == mDisplay ||
mozilla::StyleDisplay::TableCaption == mDisplay ||
mozilla::StyleDisplay::FlowRoot == mDisplay;
// Should TABLE_CELL be included here? They have
// block frames nested inside of them.
// (But please audit all callers before changing.)
}
bool IsBlockOutsideStyle() const {
return mozilla::StyleDisplay::Block == mDisplay ||
mozilla::StyleDisplay::Flex == mDisplay ||
mozilla::StyleDisplay::WebkitBox == mDisplay ||
mozilla::StyleDisplay::Grid == mDisplay ||
mozilla::StyleDisplay::ListItem == mDisplay ||
mozilla::StyleDisplay::Table == mDisplay ||
mozilla::StyleDisplay::FlowRoot == mDisplay;
}
static bool IsDisplayTypeInlineOutside(mozilla::StyleDisplay aDisplay) {
return mozilla::StyleDisplay::Inline == aDisplay ||
mozilla::StyleDisplay::InlineBlock == aDisplay ||
mozilla::StyleDisplay::InlineTable == aDisplay ||
mozilla::StyleDisplay::MozInlineBox == aDisplay ||
mozilla::StyleDisplay::InlineFlex == aDisplay ||
mozilla::StyleDisplay::WebkitInlineBox == aDisplay ||
mozilla::StyleDisplay::InlineGrid == aDisplay ||
mozilla::StyleDisplay::MozInlineGrid == aDisplay ||
mozilla::StyleDisplay::MozInlineStack == aDisplay ||
mozilla::StyleDisplay::Ruby == aDisplay ||
mozilla::StyleDisplay::RubyBase == aDisplay ||
mozilla::StyleDisplay::RubyBaseContainer == aDisplay ||
mozilla::StyleDisplay::RubyText == aDisplay ||
mozilla::StyleDisplay::RubyTextContainer == aDisplay ||
mozilla::StyleDisplay::Contents == aDisplay;
}
bool IsInlineOutsideStyle() const {
return IsDisplayTypeInlineOutside(mDisplay);
}
bool IsOriginalDisplayInlineOutsideStyle() const {
return IsDisplayTypeInlineOutside(mOriginalDisplay);
}
bool IsInnerTableStyle() const {
return mozilla::StyleDisplay::TableCaption == mDisplay ||
mozilla::StyleDisplay::TableCell == mDisplay ||
mozilla::StyleDisplay::TableRow == mDisplay ||
mozilla::StyleDisplay::TableRowGroup == mDisplay ||
mozilla::StyleDisplay::TableHeaderGroup == mDisplay ||
mozilla::StyleDisplay::TableFooterGroup == mDisplay ||
mozilla::StyleDisplay::TableColumn == mDisplay ||
mozilla::StyleDisplay::TableColumnGroup == mDisplay;
}
bool IsFloatingStyle() const {
return mozilla::StyleFloat::None != mFloat;
}
bool IsAbsolutelyPositionedStyle() const {
return NS_STYLE_POSITION_ABSOLUTE == mPosition ||
NS_STYLE_POSITION_FIXED == mPosition;
}
bool IsRelativelyPositionedStyle() const {
return NS_STYLE_POSITION_RELATIVE == mPosition ||
NS_STYLE_POSITION_STICKY == mPosition;
}
bool IsPositionForcingStackingContext() const {
return NS_STYLE_POSITION_STICKY == mPosition ||
NS_STYLE_POSITION_FIXED == mPosition;
}
static bool IsRubyDisplayType(mozilla::StyleDisplay aDisplay) {
return mozilla::StyleDisplay::Ruby == aDisplay ||
mozilla::StyleDisplay::RubyBase == aDisplay ||
mozilla::StyleDisplay::RubyBaseContainer == aDisplay ||
mozilla::StyleDisplay::RubyText == aDisplay ||
mozilla::StyleDisplay::RubyTextContainer == aDisplay;
}
bool IsRubyDisplayType() const {
return IsRubyDisplayType(mDisplay);
}
bool IsOutOfFlowStyle() const {
return (IsAbsolutelyPositionedStyle() || IsFloatingStyle());
}
bool IsScrollableOverflow() const {
// mOverflowX and mOverflowY always match when one of them is
// NS_STYLE_OVERFLOW_VISIBLE or NS_STYLE_OVERFLOW_CLIP.
return mOverflowX != NS_STYLE_OVERFLOW_VISIBLE &&
mOverflowX != NS_STYLE_OVERFLOW_CLIP;
}
bool IsContainPaint() const {
return NS_STYLE_CONTAIN_PAINT & mContain;
}
/* Returns whether the element has the -moz-transform property
* or a related property. */
bool HasTransformStyle() const {
return mSpecifiedTransform || mSpecifiedRotate || mSpecifiedTranslate ||
mSpecifiedScale ||
mTransformStyle == NS_STYLE_TRANSFORM_STYLE_PRESERVE_3D ||
(mWillChangeBitField & NS_STYLE_WILL_CHANGE_TRANSFORM);
}
bool HasIndividualTransform() const {
return mSpecifiedRotate || mSpecifiedTranslate || mSpecifiedScale;
}
bool HasPerspectiveStyle() const {
return mChildPerspective.GetUnit() == eStyleUnit_Coord;
}
bool BackfaceIsHidden() const {
return mBackfaceVisibility == NS_STYLE_BACKFACE_VISIBILITY_HIDDEN;
}
// These are defined in nsStyleStructInlines.h.
// The aContextFrame argument on each of these is the frame this
// style struct is for. If the frame is for SVG text, the return
// value will be massaged to be something that makes sense for
// SVG text.
inline bool IsBlockInside(const nsIFrame* aContextFrame) const;
inline bool IsBlockOutside(const nsIFrame* aContextFrame) const;
inline bool IsInlineOutside(const nsIFrame* aContextFrame) const;
inline bool IsOriginalDisplayInlineOutside(const nsIFrame* aContextFrame) const;
inline mozilla::StyleDisplay GetDisplay(const nsIFrame* aContextFrame) const;
inline bool IsFloating(const nsIFrame* aContextFrame) const;
inline bool IsRelativelyPositioned(const nsIFrame* aContextFrame) const;
inline bool IsAbsolutelyPositioned(const nsIFrame* aContextFrame) const;
// These methods are defined in nsStyleStructInlines.h.
/**
* Returns whether the element is a containing block for its
* absolutely positioned descendants.
* aContextFrame is the frame for which this is the nsStyleDisplay.
*/
inline bool IsAbsPosContainingBlock(const nsIFrame* aContextFrame) const;
/**
* The same as IsAbsPosContainingBlock, except skipping the tests that
* are based on the frame rather than the ComputedStyle (thus
* potentially returning a false positive).
*
* FIXME(stylo-everywhere): Pretty sure the template can go here.
*/
template<class ComputedStyleLike>
inline bool IsAbsPosContainingBlockForAppropriateFrame(
ComputedStyleLike* aComputedStyle) const;
/**
* Returns true when the element has the transform property
* or a related property, and supports CSS transforms.
* aContextFrame is the frame for which this is the nsStyleDisplay.
*/
inline bool HasTransform(const nsIFrame* aContextFrame) const;
/**
* Returns true when the element is a containing block for its fixed-pos
* descendants.
* aContextFrame is the frame for which this is the nsStyleDisplay.
*/
inline bool IsFixedPosContainingBlock(const nsIFrame* aContextFrame) const;
/**
* The same as IsFixedPosContainingBlock, except skipping the tests that
* are based on the frame rather than the ComputedStyle (thus
* potentially returning a false positive).
*
* FIXME(stylo-everywhere): Pretty sure the template can go here.
*/
template<class ComputedStyleLike>
inline bool IsFixedPosContainingBlockForAppropriateFrame(
ComputedStyleLike* aComputedStyle) const;
/**
* Returns the final combined transform.
**/
already_AddRefed<nsCSSValueSharedList> GetCombinedTransform() const {
if (mCombinedTransform) {
return do_AddRef(mCombinedTransform);
}
// backward compatible to gecko-backed style system.
return mSpecifiedTransform ? do_AddRef(mSpecifiedTransform) : nullptr;
}
private:
// Helpers for above functions, which do some but not all of the tests
// for them (since transform must be tested separately for each).
//
// FIXME(stylo-everywhere): Pretty sure the template can go here.
template<class ComputedStyleLike>
inline bool HasAbsPosContainingBlockStyleInternal(
ComputedStyleLike* aComputedStyle) const;
template<class ComputedStyleLike>
inline bool HasFixedPosContainingBlockStyleInternal(
ComputedStyleLike* aComputedStyle) const;
void GenerateCombinedTransform();
public:
// Return the 'float' and 'clear' properties, with inline-{start,end} values
// resolved to {left,right} according to the given writing mode. These are
// defined in WritingModes.h.
inline mozilla::StyleFloat PhysicalFloats(mozilla::WritingMode aWM) const;
inline mozilla::StyleClear PhysicalBreakType(mozilla::WritingMode aWM) const;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleTable
{
explicit nsStyleTable(const nsPresContext* aContext);
nsStyleTable(const nsStyleTable& aOther);
~nsStyleTable();
void FinishStyle(nsPresContext*, const nsStyleTable*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleTable& aNewData) const;
uint8_t mLayoutStrategy;// [reset] see nsStyleConsts.h NS_STYLE_TABLE_LAYOUT_*
int32_t mSpan; // [reset] the number of columns spanned by a colgroup or col
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleTableBorder
{
explicit nsStyleTableBorder(const nsPresContext* aContext);
nsStyleTableBorder(const nsStyleTableBorder& aOther);
~nsStyleTableBorder();
void FinishStyle(nsPresContext*, const nsStyleTableBorder*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleTableBorder& aNewData) const;
nscoord mBorderSpacingCol;// [inherited]
nscoord mBorderSpacingRow;// [inherited]
uint8_t mBorderCollapse;// [inherited]
uint8_t mCaptionSide; // [inherited]
uint8_t mEmptyCells; // [inherited]
};
enum nsStyleContentType {
eStyleContentType_String = 1,
eStyleContentType_Image = 10,
eStyleContentType_Attr = 20,
eStyleContentType_Counter = 30,
eStyleContentType_Counters = 31,
eStyleContentType_OpenQuote = 40,
eStyleContentType_CloseQuote = 41,
eStyleContentType_NoOpenQuote = 42,
eStyleContentType_NoCloseQuote = 43,
eStyleContentType_AltContent = 50,
eStyleContentType_Uninitialized
};
struct nsStyleContentAttr {
RefPtr<nsAtom> mName; // Non-null.
RefPtr<nsAtom> mNamespaceURL; // May be null.
bool operator==(const nsStyleContentAttr& aOther) const
{
return mName == aOther.mName && mNamespaceURL == aOther.mNamespaceURL;
}
};
class nsStyleContentData
{
public:
nsStyleContentData()
: mType(eStyleContentType_Uninitialized)
{
MOZ_COUNT_CTOR(nsStyleContentData);
mContent.mString = nullptr;
}
nsStyleContentData(const nsStyleContentData&);
~nsStyleContentData();
nsStyleContentData& operator=(const nsStyleContentData& aOther);
bool operator==(const nsStyleContentData& aOther) const;
bool operator!=(const nsStyleContentData& aOther) const {
return !(*this == aOther);
}
nsStyleContentType GetType() const { return mType; }
char16_t* GetString() const
{
MOZ_ASSERT(mType == eStyleContentType_String);
return mContent.mString;
}
const nsStyleContentAttr* GetAttr() const {
MOZ_ASSERT(mType == eStyleContentType_Attr);
MOZ_ASSERT(mContent.mAttr);
return mContent.mAttr;
}
struct CounterFunction
{
nsString mIdent;
// This is only used when it is a counters() function.
nsString mSeparator;
mozilla::CounterStylePtr mCounterStyle;
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(CounterFunction)
bool operator==(const CounterFunction& aOther) const;
bool operator!=(const CounterFunction& aOther) const {
return !(*this == aOther);
}
private:
~CounterFunction() {}
};
CounterFunction* GetCounters() const
{
MOZ_ASSERT(mType == eStyleContentType_Counter ||
mType == eStyleContentType_Counters);
MOZ_ASSERT(mContent.mCounters->mCounterStyle.IsResolved(),
"Counter style should have been resolved");
return mContent.mCounters;
}
nsStyleImageRequest* GetImageRequest() const
{
MOZ_ASSERT(mType == eStyleContentType_Image);
return mContent.mImage;
}
imgRequestProxy* GetImage() const
{
return GetImageRequest()->get();
}
void SetKeyword(nsStyleContentType aType)
{
MOZ_ASSERT(aType == eStyleContentType_OpenQuote ||
aType == eStyleContentType_CloseQuote ||
aType == eStyleContentType_NoOpenQuote ||
aType == eStyleContentType_NoCloseQuote ||
aType == eStyleContentType_AltContent);
MOZ_ASSERT(mType == eStyleContentType_Uninitialized,
"should only initialize nsStyleContentData once");
mType = aType;
}
void SetString(nsStyleContentType aType, const char16_t* aString)
{
MOZ_ASSERT(aType == eStyleContentType_String);
MOZ_ASSERT(aString);
MOZ_ASSERT(mType == eStyleContentType_Uninitialized,
"should only initialize nsStyleContentData once");
mType = aType;
mContent.mString = NS_strdup(aString);
}
void SetCounters(nsStyleContentType aType,
already_AddRefed<CounterFunction> aCounterFunction)
{
MOZ_ASSERT(aType == eStyleContentType_Counter ||
aType == eStyleContentType_Counters);
MOZ_ASSERT(mType == eStyleContentType_Uninitialized,
"should only initialize nsStyleContentData once");
mType = aType;
mContent.mCounters = aCounterFunction.take();
MOZ_ASSERT(mContent.mCounters);
}
void SetImageRequest(already_AddRefed<nsStyleImageRequest> aRequest)
{
MOZ_ASSERT(mType == eStyleContentType_Uninitialized,
"should only initialize nsStyleContentData once");
mType = eStyleContentType_Image;
mContent.mImage = aRequest.take();
MOZ_ASSERT(mContent.mImage);
}
void Resolve(nsPresContext*, const nsStyleContentData*);
private:
nsStyleContentType mType;
union {
char16_t *mString;
nsStyleContentAttr* mAttr;
nsStyleImageRequest* mImage;
CounterFunction* mCounters;
} mContent;
};
struct nsStyleCounterData
{
nsString mCounter;
int32_t mValue;
bool operator==(const nsStyleCounterData& aOther) const {
return mValue == aOther.mValue && mCounter == aOther.mCounter;
}
bool operator!=(const nsStyleCounterData& aOther) const {
return !(*this == aOther);
}
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleContent
{
explicit nsStyleContent(const nsPresContext* aContext);
nsStyleContent(const nsStyleContent& aContent);
~nsStyleContent();
void FinishStyle(nsPresContext*, const nsStyleContent*);
const static bool kHasFinishStyle = true;
nsChangeHint CalcDifference(const nsStyleContent& aNewData) const;
uint32_t ContentCount() const { return mContents.Length(); } // [reset]
const nsStyleContentData& ContentAt(uint32_t aIndex) const {
return mContents[aIndex];
}
nsStyleContentData& ContentAt(uint32_t aIndex) { return mContents[aIndex]; }
void AllocateContents(uint32_t aCount) {
// We need to run the destructors of the elements of mContents, so we
// delete and reallocate even if aCount == mContentCount. (If
// nsStyleContentData had its members private and managed their
// ownership on setting, we wouldn't need this, but that seems
// unnecessary at this point.)
mContents.Clear();
mContents.SetLength(aCount);
}
uint32_t CounterIncrementCount() const { return mIncrements.Length(); } // [reset]
const nsStyleCounterData& CounterIncrementAt(uint32_t aIndex) const {
return mIncrements[aIndex];
}
void AllocateCounterIncrements(uint32_t aCount) {
mIncrements.Clear();
mIncrements.SetLength(aCount);
}
void SetCounterIncrementAt(uint32_t aIndex, const nsString& aCounter, int32_t aIncrement) {
mIncrements[aIndex].mCounter = aCounter;
mIncrements[aIndex].mValue = aIncrement;
}
uint32_t CounterResetCount() const { return mResets.Length(); } // [reset]
const nsStyleCounterData& CounterResetAt(uint32_t aIndex) const {
return mResets[aIndex];
}
void AllocateCounterResets(uint32_t aCount) {
mResets.Clear();
mResets.SetLength(aCount);
}
void SetCounterResetAt(uint32_t aIndex, const nsString& aCounter, int32_t aValue) {
mResets[aIndex].mCounter = aCounter;
mResets[aIndex].mValue = aValue;
}
protected:
nsTArray<nsStyleContentData> mContents;
nsTArray<nsStyleCounterData> mIncrements;
nsTArray<nsStyleCounterData> mResets;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleUIReset
{
explicit nsStyleUIReset(const nsPresContext* aContext);
nsStyleUIReset(const nsStyleUIReset& aOther);
~nsStyleUIReset();
void FinishStyle(nsPresContext*, const nsStyleUIReset*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleUIReset& aNewData) const;
mozilla::StyleUserSelect mUserSelect; // [reset](selection-style)
uint8_t mForceBrokenImageIcon; // [reset] (0 if not forcing, otherwise forcing)
uint8_t mIMEMode; // [reset]
mozilla::StyleWindowDragging mWindowDragging; // [reset]
uint8_t mWindowShadow; // [reset]
float mWindowOpacity; // [reset]
RefPtr<nsCSSValueSharedList> mSpecifiedWindowTransform; // [reset]
nsStyleCoord mWindowTransformOrigin[2]; // [reset] percent, coord, calc
};
struct nsCursorImage
{
bool mHaveHotspot;
float mHotspotX, mHotspotY;
RefPtr<nsStyleImageRequest> mImage;
nsCursorImage();
nsCursorImage(const nsCursorImage& aOther);
nsCursorImage& operator=(const nsCursorImage& aOther);
bool operator==(const nsCursorImage& aOther) const;
bool operator!=(const nsCursorImage& aOther) const
{
return !(*this == aOther);
}
imgRequestProxy* GetImage() const {
return mImage->get();
}
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleUserInterface
{
explicit nsStyleUserInterface(const nsPresContext* aContext);
nsStyleUserInterface(const nsStyleUserInterface& aOther);
~nsStyleUserInterface();
void FinishStyle(nsPresContext*, const nsStyleUserInterface*);
const static bool kHasFinishStyle = true;
nsChangeHint CalcDifference(const nsStyleUserInterface& aNewData) const;
mozilla::StyleUserInput mUserInput; // [inherited]
mozilla::StyleUserModify mUserModify; // [inherited] (modify-content)
mozilla::StyleUserFocus mUserFocus; // [inherited] (auto-select)
uint8_t mPointerEvents; // [inherited] see nsStyleConsts.h
uint8_t mCursor; // [inherited] See nsStyleConsts.h
nsTArray<nsCursorImage> mCursorImages; // [inherited] images and coords
mozilla::StyleComplexColor mCaretColor; // [inherited]
inline uint8_t GetEffectivePointerEvents(nsIFrame* aFrame) const;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleXUL
{
explicit nsStyleXUL(const nsPresContext* aContext);
nsStyleXUL(const nsStyleXUL& aSource);
~nsStyleXUL();
void FinishStyle(nsPresContext*, const nsStyleXUL*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleXUL& aNewData) const;
float mBoxFlex; // [reset] see nsStyleConsts.h
uint32_t mBoxOrdinal; // [reset] see nsStyleConsts.h
mozilla::StyleBoxAlign mBoxAlign; // [reset]
mozilla::StyleBoxDirection mBoxDirection; // [reset]
mozilla::StyleBoxOrient mBoxOrient; // [reset]
mozilla::StyleBoxPack mBoxPack; // [reset]
mozilla::StyleStackSizing mStackSizing; // [reset] see nsStyleConsts.h
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleColumn
{
explicit nsStyleColumn(const nsPresContext* aContext);
nsStyleColumn(const nsStyleColumn& aSource);
~nsStyleColumn();
void FinishStyle(nsPresContext*, const nsStyleColumn*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleColumn& aNewData) const;
/**
* This is the maximum number of columns we can process. It's used in both
* nsColumnSetFrame and nsRuleNode.
*/
static const uint32_t kMaxColumnCount = 1000;
uint32_t mColumnCount; // [reset] see nsStyleConsts.h
nsStyleCoord mColumnWidth; // [reset] coord, auto
mozilla::StyleComplexColor mColumnRuleColor; // [reset]
uint8_t mColumnRuleStyle; // [reset]
uint8_t mColumnFill; // [reset] see nsStyleConsts.h
uint8_t mColumnSpan; // [reset] see nsStyleConsts.h
void SetColumnRuleWidth(nscoord aWidth) {
mColumnRuleWidth = NS_ROUND_BORDER_TO_PIXELS(aWidth, mTwipsPerPixel);
}
nscoord GetComputedColumnRuleWidth() const {
return (IsVisibleBorderStyle(mColumnRuleStyle) ? mColumnRuleWidth : 0);
}
protected:
nscoord mColumnRuleWidth; // [reset] coord
nscoord mTwipsPerPixel;
};
enum nsStyleSVGPaintType : uint8_t {
eStyleSVGPaintType_None = 1,
eStyleSVGPaintType_Color,
eStyleSVGPaintType_Server,
eStyleSVGPaintType_ContextFill,
eStyleSVGPaintType_ContextStroke
};
enum nsStyleSVGFallbackType : uint8_t {
eStyleSVGFallbackType_NotSet,
eStyleSVGFallbackType_None,
eStyleSVGFallbackType_Color,
};
enum nsStyleSVGOpacitySource : uint8_t {
eStyleSVGOpacitySource_Normal,
eStyleSVGOpacitySource_ContextFillOpacity,
eStyleSVGOpacitySource_ContextStrokeOpacity
};
class nsStyleSVGPaint
{
public:
explicit nsStyleSVGPaint(nsStyleSVGPaintType aType = nsStyleSVGPaintType(0));
nsStyleSVGPaint(const nsStyleSVGPaint& aSource);
~nsStyleSVGPaint();
nsStyleSVGPaint& operator=(const nsStyleSVGPaint& aOther);
nsStyleSVGPaintType Type() const { return mType; }
void SetNone();
void SetColor(nscolor aColor);
void SetPaintServer(mozilla::css::URLValue* aPaintServer,
nsStyleSVGFallbackType aFallbackType,
nscolor aFallbackColor);
void SetPaintServer(mozilla::css::URLValue* aPaintServer) {
SetPaintServer(aPaintServer, eStyleSVGFallbackType_NotSet,
NS_RGB(0, 0, 0));
}
void SetContextValue(nsStyleSVGPaintType aType,
nsStyleSVGFallbackType aFallbackType,
nscolor aFallbackColor);
void SetContextValue(nsStyleSVGPaintType aType) {
SetContextValue(aType, eStyleSVGFallbackType_NotSet, NS_RGB(0, 0, 0));
}
nscolor GetColor() const {
MOZ_ASSERT(mType == eStyleSVGPaintType_Color);
return mPaint.mColor;
}
mozilla::css::URLValue* GetPaintServer() const {
MOZ_ASSERT(mType == eStyleSVGPaintType_Server);
return mPaint.mPaintServer;
}
nsStyleSVGFallbackType GetFallbackType() const {
return mFallbackType;
}
nscolor GetFallbackColor() const {
MOZ_ASSERT(mType == eStyleSVGPaintType_Server ||
mType == eStyleSVGPaintType_ContextFill ||
mType == eStyleSVGPaintType_ContextStroke);
return mFallbackColor;
}
bool operator==(const nsStyleSVGPaint& aOther) const;
bool operator!=(const nsStyleSVGPaint& aOther) const {
return !(*this == aOther);
}
private:
void Reset();
void Assign(const nsStyleSVGPaint& aOther);
union {
nscolor mColor;
mozilla::css::URLValue* mPaintServer;
} mPaint;
nsStyleSVGPaintType mType;
nsStyleSVGFallbackType mFallbackType;
nscolor mFallbackColor;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleSVG
{
explicit nsStyleSVG(const nsPresContext* aContext);
nsStyleSVG(const nsStyleSVG& aSource);
~nsStyleSVG();
void FinishStyle(nsPresContext*, const nsStyleSVG*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleSVG& aNewData) const;
nsStyleSVGPaint mFill; // [inherited]
nsStyleSVGPaint mStroke; // [inherited]
RefPtr<mozilla::css::URLValue> mMarkerEnd; // [inherited]
RefPtr<mozilla::css::URLValue> mMarkerMid; // [inherited]
RefPtr<mozilla::css::URLValue> mMarkerStart; // [inherited]
nsTArray<nsStyleCoord> mStrokeDasharray; // [inherited] coord, percent, factor
nsTArray<RefPtr<nsAtom>> mContextProps;
nsStyleCoord mStrokeDashoffset; // [inherited] coord, percent, factor
nsStyleCoord mStrokeWidth; // [inherited] coord, percent, factor
float mFillOpacity; // [inherited]
float mStrokeMiterlimit; // [inherited]
float mStrokeOpacity; // [inherited]
mozilla::StyleFillRule mClipRule; // [inherited]
uint8_t mColorInterpolation; // [inherited] see nsStyleConsts.h
uint8_t mColorInterpolationFilters; // [inherited] see nsStyleConsts.h
mozilla::StyleFillRule mFillRule; // [inherited] see nsStyleConsts.h
uint8_t mPaintOrder; // [inherited] see nsStyleConsts.h
uint8_t mShapeRendering; // [inherited] see nsStyleConsts.h
uint8_t mStrokeLinecap; // [inherited] see nsStyleConsts.h
uint8_t mStrokeLinejoin; // [inherited] see nsStyleConsts.h
uint8_t mTextAnchor; // [inherited] see nsStyleConsts.h
uint8_t mContextPropsBits; // [inherited] see nsStyleConsts.h.
// Stores a bitfield representation of
// the specified properties.
/// Returns true if style has been set to expose the computed values of
/// certain properties (such as 'fill') to the contents of any linked images.
bool ExposesContextProperties() const {
return bool(mContextPropsBits);
}
nsStyleSVGOpacitySource FillOpacitySource() const {
uint8_t value = (mContextFlags & FILL_OPACITY_SOURCE_MASK) >>
FILL_OPACITY_SOURCE_SHIFT;
return nsStyleSVGOpacitySource(value);
}
nsStyleSVGOpacitySource StrokeOpacitySource() const {
uint8_t value = (mContextFlags & STROKE_OPACITY_SOURCE_MASK) >>
STROKE_OPACITY_SOURCE_SHIFT;
return nsStyleSVGOpacitySource(value);
}
bool StrokeDasharrayFromObject() const {
return mContextFlags & STROKE_DASHARRAY_CONTEXT;
}
bool StrokeDashoffsetFromObject() const {
return mContextFlags & STROKE_DASHOFFSET_CONTEXT;
}
bool StrokeWidthFromObject() const {
return mContextFlags & STROKE_WIDTH_CONTEXT;
}
void SetFillOpacitySource(nsStyleSVGOpacitySource aValue) {
mContextFlags = (mContextFlags & ~FILL_OPACITY_SOURCE_MASK) |
(aValue << FILL_OPACITY_SOURCE_SHIFT);
}
void SetStrokeOpacitySource(nsStyleSVGOpacitySource aValue) {
mContextFlags = (mContextFlags & ~STROKE_OPACITY_SOURCE_MASK) |
(aValue << STROKE_OPACITY_SOURCE_SHIFT);
}
void SetStrokeDasharrayFromObject(bool aValue) {
mContextFlags = (mContextFlags & ~STROKE_DASHARRAY_CONTEXT) |
(aValue ? STROKE_DASHARRAY_CONTEXT : 0);
}
void SetStrokeDashoffsetFromObject(bool aValue) {
mContextFlags = (mContextFlags & ~STROKE_DASHOFFSET_CONTEXT) |
(aValue ? STROKE_DASHOFFSET_CONTEXT : 0);
}
void SetStrokeWidthFromObject(bool aValue) {
mContextFlags = (mContextFlags & ~STROKE_WIDTH_CONTEXT) |
(aValue ? STROKE_WIDTH_CONTEXT : 0);
}
bool HasMarker() const {
return mMarkerStart || mMarkerMid || mMarkerEnd;
}
/**
* Returns true if the stroke is not "none" and the stroke-opacity is greater
* than zero. This ignores stroke-widths as that depends on the context.
*/
bool HasStroke() const {
return mStroke.Type() != eStyleSVGPaintType_None && mStrokeOpacity > 0;
}
/**
* Returns true if the fill is not "none" and the fill-opacity is greater
* than zero.
*/
bool HasFill() const {
return mFill.Type() != eStyleSVGPaintType_None && mFillOpacity > 0;
}
private:
// Flags to represent the use of context-fill and context-stroke
// for fill-opacity or stroke-opacity, and context-value for stroke-dasharray,
// stroke-dashoffset and stroke-width.
// fill-opacity: context-{fill,stroke}
static const uint8_t FILL_OPACITY_SOURCE_MASK = 0x03;
// stroke-opacity: context-{fill,stroke}
static const uint8_t STROKE_OPACITY_SOURCE_MASK = 0x0C;
// stroke-dasharray: context-value
static const uint8_t STROKE_DASHARRAY_CONTEXT = 0x10;
// stroke-dashoffset: context-value
static const uint8_t STROKE_DASHOFFSET_CONTEXT = 0x20;
// stroke-width: context-value
static const uint8_t STROKE_WIDTH_CONTEXT = 0x40;
static const uint8_t FILL_OPACITY_SOURCE_SHIFT = 0;
static const uint8_t STROKE_OPACITY_SOURCE_SHIFT = 2;
uint8_t mContextFlags; // [inherited]
};
struct nsStyleFilter
{
nsStyleFilter();
nsStyleFilter(const nsStyleFilter& aSource);
~nsStyleFilter();
void FinishStyle(nsPresContext*, const nsStyleFilter*) {}
const static bool kHasFinishStyle = false;
nsStyleFilter& operator=(const nsStyleFilter& aOther);
bool operator==(const nsStyleFilter& aOther) const;
bool operator!=(const nsStyleFilter& aOther) const {
return !(*this == aOther);
}
uint32_t GetType() const {
return mType;
}
const nsStyleCoord& GetFilterParameter() const {
NS_ASSERTION(mType != NS_STYLE_FILTER_DROP_SHADOW &&
mType != NS_STYLE_FILTER_URL &&
mType != NS_STYLE_FILTER_NONE, "wrong filter type");
return mFilterParameter;
}
void SetFilterParameter(const nsStyleCoord& aFilterParameter,
int32_t aType);
mozilla::css::URLValue* GetURL() const {
MOZ_ASSERT(mType == NS_STYLE_FILTER_URL, "wrong filter type");
return mURL;
}
bool SetURL(mozilla::css::URLValue* aValue);
nsCSSShadowArray* GetDropShadow() const {
NS_ASSERTION(mType == NS_STYLE_FILTER_DROP_SHADOW, "wrong filter type");
return mDropShadow;
}
void SetDropShadow(nsCSSShadowArray* aDropShadow);
private:
void ReleaseRef();
uint32_t mType; // see NS_STYLE_FILTER_* constants in nsStyleConsts.h
nsStyleCoord mFilterParameter; // coord, percent, factor, angle
union {
mozilla::css::URLValue* mURL;
nsCSSShadowArray* mDropShadow;
};
};
template<>
struct nsTArray_CopyChooser<nsStyleFilter>
{
typedef nsTArray_CopyWithConstructors<nsStyleFilter> Type;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleSVGReset
{
explicit nsStyleSVGReset(const nsPresContext* aContext);
nsStyleSVGReset(const nsStyleSVGReset& aSource);
~nsStyleSVGReset();
// Resolves and tracks the images in mMask. Only called with a Servo-backed
// style system, where those images must be resolved later than the OMT
// nsStyleSVGReset constructor call.
void FinishStyle(nsPresContext*, const nsStyleSVGReset*);
const static bool kHasFinishStyle = true;
nsChangeHint CalcDifference(const nsStyleSVGReset& aNewData) const;
bool HasClipPath() const {
return mClipPath.GetType() != mozilla::StyleShapeSourceType::None;
}
bool HasMask() const;
bool HasNonScalingStroke() const {
return mVectorEffect == NS_STYLE_VECTOR_EFFECT_NON_SCALING_STROKE;
}
nsStyleImageLayers mMask;
mozilla::StyleShapeSource mClipPath;// [reset]
nscolor mStopColor; // [reset]
nscolor mFloodColor; // [reset]
nscolor mLightingColor; // [reset]
float mStopOpacity; // [reset]
float mFloodOpacity; // [reset]
uint8_t mDominantBaseline; // [reset] see nsStyleConsts.h
uint8_t mVectorEffect; // [reset] see nsStyleConsts.h
uint8_t mMaskType; // [reset] see nsStyleConsts.h
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleEffects
{
explicit nsStyleEffects(const nsPresContext* aContext);
nsStyleEffects(const nsStyleEffects& aSource);
~nsStyleEffects();
void FinishStyle(nsPresContext*, const nsStyleEffects*) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleEffects& aNewData) const;
bool HasFilters() const {
return !mFilters.IsEmpty();
}
nsTArray<nsStyleFilter> mFilters; // [reset]
RefPtr<nsCSSShadowArray> mBoxShadow; // [reset] nullptr for 'none'
nsRect mClip; // [reset] offsets from UL border edge
float mOpacity; // [reset]
uint8_t mClipFlags; // [reset] see nsStyleConsts.h
uint8_t mMixBlendMode; // [reset] see nsStyleConsts.h
};
#define STATIC_ASSERT_TYPE_LAYOUTS_MATCH(T1, T2) \
static_assert(sizeof(T1) == sizeof(T2), \
"Size mismatch between " #T1 " and " #T2); \
static_assert(alignof(T1) == alignof(T2), \
"Align mismatch between " #T1 " and " #T2); \
#define STATIC_ASSERT_FIELD_OFFSET_MATCHES(T1, T2, field) \
static_assert(offsetof(T1, field) == offsetof(T2, field), \
"Field offset mismatch of " #field " between " #T1 " and " #T2); \
/**
* These *_Simple types are used to map Gecko types to layout-equivalent but
* simpler Rust types, to aid Rust binding generation.
*
* If something in this types or the assertions below needs to change, ask
* bholley, heycam or emilio before!
*
* <div rustbindgen="true" replaces="nsPoint">
*/
struct nsPoint_Simple {
nscoord x, y;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsPoint, nsPoint_Simple);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsPoint, nsPoint_Simple, x);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsPoint, nsPoint_Simple, y);
/**
* <div rustbindgen="true" replaces="nsMargin">
*/
struct nsMargin_Simple {
nscoord top, right, bottom, left;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsMargin, nsMargin_Simple);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsMargin, nsMargin_Simple, top);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsMargin, nsMargin_Simple, right);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsMargin, nsMargin_Simple, bottom);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsMargin, nsMargin_Simple, left);
/**
* <div rustbindgen="true" replaces="nsRect">
*/
struct nsRect_Simple {
nscoord x, y, width, height;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsRect, nsRect_Simple);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsRect, nsRect_Simple, x);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsRect, nsRect_Simple, y);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsRect, nsRect_Simple, width);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsRect, nsRect_Simple, height);
/**
* <div rustbindgen="true" replaces="nsSize">
*/
struct nsSize_Simple {
nscoord width, height;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsSize, nsSize_Simple);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsSize, nsSize_Simple, width);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsSize, nsSize_Simple, height);
/**
* <div rustbindgen="true" replaces="mozilla::UniquePtr">
*
* TODO(Emilio): This is a workaround and we should be able to get rid of this
* one.
*/
template<typename T>
struct UniquePtr_Simple {
T* mPtr;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(mozilla::UniquePtr<int>, UniquePtr_Simple<int>);
/**
* <div rustbindgen replaces="nsTArray"></div>
*/
template<typename T>
class nsTArray_Simple {
T* mBuffer;
public:
// The existence of a destructor here prevents bindgen from deriving the Clone
// trait via a simple memory copy.
~nsTArray_Simple() {};
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsTArray<nsStyleImageLayers::Layer>,
nsTArray_Simple<nsStyleImageLayers::Layer>);
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsTArray<mozilla::StyleTransition>,
nsTArray_Simple<mozilla::StyleTransition>);
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsTArray<mozilla::StyleAnimation>,
nsTArray_Simple<mozilla::StyleAnimation>);
/**
* <div rustbindgen replaces="nsCOMArray"></div>
*
* mozilla::ArrayIterator doesn't work well with bindgen.
*/
template<typename T>
class nsCOMArray_Simple {
nsTArray<nsISupports*> mBuffer;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsCOMArray<nsIContent>,
nsCOMArray_Simple<nsIContent>);
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsCOMArray<nsINode>,
nsCOMArray_Simple<nsINode>);
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsCOMArray<imgIContainer>,
nsCOMArray_Simple<imgIContainer>);
#endif /* nsStyleStruct_h___ */
Reference in New Issue View Git Blame Copy Permalink